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330 lines
15 KiB
Markdown
330 lines
15 KiB
Markdown
# Basic grammar rules of Bash
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![](keywords>bash shell scripting grammar syntax language)
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Bash builds its features on top of a few basic **grammar rules**. The
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code you see everywhere, the code you use, is based on those rules.
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However, **this is a very theoretical view**, but if you're interested,
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it may help you understand why things look the way they look.
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If you don't know the commands used in the following examples, just
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trust the explanation.
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## Simple Commands
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Bash manual says:
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A simple command is a sequence of optional variable assignments followed by blank-separated words and redirections,
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and terminated by a control operator. The first word specifies the command to be executed, and is passed as argument
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zero. The remaining words are passed as arguments to the invoked command.
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Sounds harder than it actually is. It is what you do daily. You enter
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simple commands with parameters, and the shell executes them.
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Every complex Bash operation can be split into simple commands:
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ls
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ls > list.txt
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ls -l
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LC_ALL=C ls
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The last one might not be familiar. That one simply adds "`LC_ALL=C`" to
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the environment of the `ls` program. It doesn't affect your current
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shell. This also works while calling functions, unless Bash runs in
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POSIX(r) mode (in which case it affects your current shell).
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Every command has an exit code. It's a type of return status. The shell
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can catch it and act on it. Exit code range is from 0 to 255, where 0
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means success, and the rest mean either something failed, or there is an
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issue to report back to the calling program.
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\<wrap center round info 90%\> The simple command construct is the
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**base** for all higher constructs. Everything you execute, from
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pipelines to functions, finally ends up in (many) simple commands.
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That's why Bash only has one method to [expand and execute a simple
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command](/syntax/grammar/parser_exec.md). \</wrap\>
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## Pipelines
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FIXME Missing an additional article about pipelines and pipelining
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`[time [-p]] [ ! ] command [ | command2 ... ]`
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**Don't get confused** about the name "pipeline." It's a grammatic name
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for a construct. Such a pipeline isn't necessarily a pair of commands
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where stdout/stdin is connected via a real pipe.
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Pipelines are one or more [simple
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commands](basicgrammar##simple_commands) (separated by the `|` symbol
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connects their input and output), for example:
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ls /etc | wc -l
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will execute `ls` on `/etc` and **pipe** the output to `wc`, which will
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count the lines generated by the ls command. The result is the number of
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directory entries in /etc.
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The last command in the pipeline will set the exit code for the
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pipeline. This exit code can be "inverted" by prefixing an exclamation
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mark to the pipeline: An unsuccessful pipeline will exit "successful"
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and vice versa. In this example, the commands in the if stanza will be
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executed if the pattern "^root:" is **not** found in `/etc/passwd`:
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if ! grep '^root:' /etc/passwd; then
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echo "No root user defined... eh?"
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fi
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Yes, this is also a pipeline (although there is no pipe!), because the
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**exclamation mark to invert the exit code** can only be used in a
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pipeline. If `grep`'s exit code is 1 (FALSE) (the text was not found),
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the leading `!` will "invert" the exit code, and the shell sees (and
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acts on) exit code 0 (TRUE) and the `then` part of the `if` stanza is
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executed. One could say we checked for "`not grep "^root" /etc/passwd`".
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The [set option pipefail](/commands/builtin/set.md#attributes) determines
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the behavior of how bash reports the exit code of a pipeline. If it's
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set, then the exit code (`$?`) is the last command that exits with non
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zero status, if none fail, it's zero. If it's not set, then `$?` always
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holds the exit code of the last command (as explained above).
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The shell option `lastpipe` will execute the last element in a pipeline
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construct in the current shell environment, i.e. not a subshell.
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There's also an array `PIPESTATUS[]` that is set after a foreground
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pipeline is executed. Each element of `PIPESTATUS[]` reports the exit
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code of the respective command in the pipeline. Note: (1) it's only for
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foreground pipe and (2) for higher level structure that is built up from
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a pipeline. Like list, `PIPESTATUS[]` holds the exit status of the last
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pipeline command executed.
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Another thing you can do with pipelines is log their execution time.
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Note that **`time` is not a command**, it is part of the pipeline
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syntax:
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# time updatedb
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real 3m21.288s
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user 0m3.114s
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sys 0m4.744s
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## Lists
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FIXME Missing an additional article about list operators
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A list is a sequence of one or more [pipelines](basicgrammar#pipelines)
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separated by one of the operators `;`, `&`, `&&`, or `││`, and
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optionally terminated by one of `;`, `&`, or `<newline>`.
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=\> It's a group of **pipelines** separated or terminated by **tokens**
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that all have **different meanings** for Bash.
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Your whole Bash script technically is one big single list!
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| Operator | Description |
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|-------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
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| `<PIPELINE1> <newline> <PIPELINE2>` | Newlines completely separate pipelines. The next pipeline is executed without any checks. (You enter a command and press `<RETURN>`!) |
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| `<PIPELINE1> ; <PIPELINE2>` | The semicolon does what `<newline>` does: It separates the pipelines |
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| `<PIPELINE> & <PIPELINE>` | The pipeline in front of the `&` is executed **asynchronously** ("in the background"). If a pipeline follows this, it is executed immediately after the async pipeline starts |
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| `<PIPELINE1> && <PIPELINE2>` | `<PIPELINE1>` is executed and **only** if its exit code was 0 (TRUE), then `<PIPELINE2>` is executed (AND-List) |
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| `<PIPELINE1> || <PIPELINE2>` | `<PIPELINE1>` is executed and **only** if its exit code was **not** 0 (FALSE), then `<PIPELINE2>` is executed (OR-List) |
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**Note:** POSIX calls this construct a "compound lists".
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## Compound Commands
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See also the [list of compound commands](/syntax/ccmd/intro.md).
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There are two forms of compound commands:
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- form a new syntax element using a list as a "body"
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- completly independant syntax elements
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Essentially, everything else that's not described in this article.
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Compound commands have the following characteristics:
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- they **begin** and **end** with a specific keyword or operator (e.g.
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`for ... done`)
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- they can be redirected as a whole
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See the following table for a short overview (no details - just an
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overview):
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| Compound command syntax | Description |
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|------------------------------------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------|
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| `( <LIST> )` | Execute `<LIST>` in an extra subshell =\> [article](/syntax/ccmd/grouping_subshell.md) |
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| `{ <LIST> ; }` | Execute `<LIST>` as separate group (but not in a subshell) =\> [article](/syntax/ccmd/grouping_plain.md) |
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| `(( <EXPRESSION> ))` | Evaluate the arithmetic expression `<EXPRESSION>` =\> [article](/syntax/ccmd/arithmetic_eval.md) |
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| `[[ <EXPRESSION> ]]` | Evaluate the conditional expression `<EXPRESSION>` (aka "the new test command") =\> [article](/syntax/ccmd/conditional_expression.md) |
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| `for <NAME> in <WORDS> ; do <LIST> ; done` | Executes `<LIST>` while setting the variable `<NAME>` to one of `<WORDS>` on every iteration (classic for-loop) =\> [article](/syntax/ccmd/classic_for.md) |
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| `for (( <EXPR1> ; <EXPR2> ; <EXPR3> )) ; do <LIST> ; done` | C-style for-loop (driven by arithmetic expressions) =\> [article](/syntax/ccmd/c_for.md) |
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| `select <NAME> in <WORDS> ; do <LIST> ; done` | Provides simple menus =\> [article](/syntax/ccmd/user_select.md) |
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| `case <WORD> in <PATTERN>) <LIST> ;; ... esac` | Decisions based on pattern matching - executing `<LIST>` on match =\> [article](/syntax/ccmd/case.md) |
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| `if <LIST> ; then <LIST> ; else <LIST> ; fi` | The if clause: makes decisions based on exit codes =\> [article](/syntax/ccmd/if_clause.md) |
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| `while <LIST1> ; do <LIST2> ; done` | Execute `<LIST2>` while `<LIST1>` returns TRUE (exit code) =\> [article](/syntax/ccmd/while_loop.md) |
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| `until <LIST1> ; do <LIST2> ; done` | Execute `<LIST2>` until `<LIST1>` returns TRUE (exit code) =\> [article](/syntax/ccmd/until_loop.md) |
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## Shell Function Definitions
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FIXME Missing an additional article about shell functions
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A shell function definition makes a [compound
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command](basicgrammar#compound_commands) available via a new name. When
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the function runs, it has its own "private" set of positional parameters
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and I/O descriptors. It acts like a script-within-the-script. Simply
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stated: **You've created a new command.**
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The definition is easy (one of many possibilities):
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`<NAME> () <COMPOUND_COMMAND> <REDIRECTIONS>`
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which is usually used with the `{...; }` compound command, and thus
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looks like:
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print_help() { echo "Sorry, no help available"; }
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As above, a function definition can have any [compound
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command](basicgrammar#compound_commands) as a body. Structures like
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countme() for ((x=1;x<=9;x++)); do echo $x; done
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are unusual, but perfectly valid, since the for loop construct is a
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compound command!
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If **redirection** is specified, the redirection is not performed when
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the function is defined. It is performed when the function runs:
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# this will NOT perform the redirection (at definition time)
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f() { echo ok ; } > file
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# NOW the redirection will be performed (during EXECUTION of the function)
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f
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Bash allows three equivalent forms of the function definition:
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NAME () <COMPOUND_COMMAND> <REDIRECTIONS>
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function NAME () <COMPOUND_COMMAND> <REDIRECTIONS>
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function NAME <COMPOUND_COMMAND> <REDIRECTIONS>
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The space between `NAME` and `()` is optional, usually you see it
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without the space.
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I suggest using the first form. It's specified in POSIX and all
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Bourne-like shells seem to support it.
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<u>**Note:**</u> Before version `2.05-alpha1`, Bash only recognized the
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definition using curly braces (`name() { ... }`), other shells allow the
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definition using **any** command (not just the compound command set).
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To execute a function like a regular shell script you put it together
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like this:
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#!/bin/bash
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# Add shebang
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mycmd()
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{
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# this $1 belongs to the function!
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find / -iname "$1"
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}
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# this $1 belongs the script itself!
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mycmd "$1" # Execute command immediately after defining function
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exit 0
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**Just informational(1):**
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Internally, for forking, Bash stores function definitions in environment
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variables. Variables with the content "*() ....*".
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Something similar to the following works without "officially" declaring
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a function:
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$ export testfn="() { echo test; }"
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$ bash -c testfn
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test
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$
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**Just informational(2):**
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It is possible to create function names containing slashes:
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/bin/ls() {
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echo LS FAKE
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}
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The elements of this name aren't subject to a path search.
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Weird function names should not be used. Quote from the maintainer:
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- * It was a mistake to allow such characters in function names
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(\`unset' doesn't work to unset them without forcing -f, for
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instance). We're stuck with them for backwards compatibility, but I
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don't have to encourage their use. *
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## Grammar summary
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- a [simple command](basicgrammar#simple_commands) is just a command and
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its arguments
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- a [pipeline](basicgrammar#pipelines) is one or more [simple
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command](basicgrammar#simple_commands) probably connected in a pipe
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- a [list](basicgrammar#lists) is one or more
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[pipelines](basicgrammar#pipelines) connected by special operators
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- a [compound command](basicgrammar#compound_commands) is a
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[list](basicgrammar#lists) or a special command that forms a new
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meta-command
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- a [function definition](basicgrammar#shell_function_definitions) makes
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a [compound command](basicgrammar#compound_commands) available under a
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new name, and a separate environment
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## Examples for classification
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FIXME more...
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------------------------------------------------------------------------
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<u>A (very) simple command</u>
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echo "Hello world..."
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<u>All of the following are simple commands</u>
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x=5
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>tmpfile
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{x}<"$x" _=${x=<(echo moo)} <&0$(cat <&"$x" >&2)
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------------------------------------------------------------------------
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<u>A common compound command</u>
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if [ -d /data/mp3 ]; then
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cp mymusic.mp3 /data/mp3
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fi
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- the [compound command](basicgrammar#compound_commands) for the `if`
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clause
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- the [list](basicgrammar#lists) that `if` **checks** actually contains
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the [simple command](basicgrammar#simple_commands) `[ -d /data/mp3 ]`
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- the [list](basicgrammar#lists) that `if` **executes** contains a
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simple command (`cp mymusic.mp3 /data/mp3`)
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Let's invert test command exit code, only one thing changes:
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if ! [ -d /data/mp3 ]; then
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cp mymusic.mp3 /data/mp3
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fi
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- the [list](basicgrammar#lists) that `if` **checks** contains a
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[pipeline](basicgrammar#pipelines) now (because of the `!`)
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## See also
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- Internal: [List of compound commands](/syntax/ccmd/intro.md)
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- Internal: [Parsing and execution of simple
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commands](/syntax/grammar/parser_exec.md)
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- Internal: [Quoting and escaping](/syntax/quoting.md)
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- Internal: [Introduction to expansions and
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substitutions](/syntax/expansion/intro.md)
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- Internal: [Some words about words...](/syntax/words.md)
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