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Bash always reads your script or commands on the bash command prompt ''line by line''. If your line ends with a backslash character, bash reads another line before processing the command and appends that other line to the current, with a literal newline inbetween. ''(I will from here on refer to the chunk of data Bash read in as the '''line''' of data; even though it is technically possible that this line contains one or more newlines.)'' '''Step Input:'''<<BR>> `echo "What's your name?"`<<BR>> `read name; echo "$name"`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo "What's your name?"`<<BR>> ''and''<<BR>> `read name; echo "$name"`<<BR>> <<BR>> |
. Bash always reads your script or commands on the bash command prompt ''line by line''. If your line ends with a backslash character, bash reads another line before processing the command and appends that other line to the current, with a literal newline inbetween. ''(I will from here on refer to the chunk of data Bash read in as the '''line''' of data; even though it is technically possible that this line contains one or more newlines.)'' . '''Step Input:'''<<BR>> `echo "What's your name?"`<<BR>> `read name; echo "$name"`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo "What's your name?"`<<BR>> . ''and''<<BR>> `read name; echo "$name"`<<BR>> <<BR>> |
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Once Bash has read in your line of data, it looks through it in search of quotes. The first quote it finds triggers a quoted state for all characters that follow up until the next quote of the same type. If the quoted state was triggered by a double quote (`"..."`), all characters except for `$`, `"` and `\` loose any special meaning they might have. That includes single quotes, spaces and newlines, etc. If the quoted state was triggered by a single quote (`'...'`), all characters except for `'` loose their special meaning. Yes, also `$` and `\`. Therefore, the following command will produce literal output: {{{ |
. Once Bash has read in your line of data, it looks through it in search of quotes. The first quote it finds triggers a quoted state for all characters that follow up until the next quote of the same type. If the quoted state was triggered by a double quote (`"..."`), all characters except for `$`, `"` and `\` lose any special meaning they might have. That includes single quotes, spaces and newlines, etc. If the quoted state was triggered by a single quote (`'...'`), all characters except for `'` lose their special meaning. Yes, also `$` and `\`. Therefore, the following command will produce literal output: {{{ |
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}}} The fact that the backslash looses its ability to cancel out the meaning of the next character means that this will not work: {{{ |
}}} The fact that the backslash loses its ability to cancel out the meaning of the next character means that this will not work: {{{ |
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> }}} Bash will ask you for the next line of input because unlike what we ''thought'' we did, the '''second''' quote, the one we tried to escape with the backslash, actually '''closed our quoted state''' meaning the `t do this` was '''not''' quoted. The last quote on the line then '''opened''' our quoted state again, and bash asks for more input until it is closed again (it tries to finish step 1: it reads data until it finds an unescaped newline. The opened single quote state is escaping our newline). Now that bash knows which of the characters in the line of data are escaped (stripped of their ability to mean anything special to Bash) and which are not, Bash removes the quotes that were used to determine this from the data and proceeds to the next step. '''Step Input:'''<<BR>> `echo "What's your name?"`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo `''`What's your name?`''<<BR>> ('''Note:''' Every character originally between the double quotes has been marked as ''escaped''. I will mark escaped characters in these examples by making them ''`italic`''.)<<BR>> <<BR>> |
> }}} Bash will ask you for the next line of input because unlike what we ''thought'' we did, the '''second''' quote, the one we tried to escape with the backslash, actually '''closed our quoted state''' meaning the `t do this` was '''not''' quoted. The last quote on the line then '''opened''' our quoted state again, and bash asks for more input until it is closed again (it tries to finish step 1: it reads data until it finds an unescaped newline. The opened single quote state is escaping our newline). Now that bash knows which of the characters in the line of data are escaped (stripped of their ability to mean anything special to Bash) and which are not, Bash removes the quotes that were used to determine this from the data and proceeds to the next step. . '''Step Input:'''<<BR>> `echo "What's your name?"`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo `''`What's your name?`''<<BR>> . ('''Note:''' Every character originally between the double quotes has been marked as ''escaped''. I will mark escaped characters in these examples by making them ''`italic`''.)<<BR>> <<BR>> |
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Our line is now split up into separate commands using `;` as a command separator. Remember from the previous step that any `;` characters that were quoted or escaped do not have their special meaning anymore and will not be used for command splitting. They will just appear in the resulting command line literally: {{{ |
. Our line is now split up into separate commands using `;` as a command separator. Remember from the previous step that any `;` characters that were quoted or escaped do not have their special meaning anymore and will not be used for command splitting. They will just appear in the resulting command line literally: {{{ |
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}}} '''Step Input:'''<<BR>> `read name; echo `''`$name`''<<BR>> <<BR>> '''Step Output:'''<<BR>> `read name`<<BR>> ''and''<<BR>> `echo `''`$name`''<<BR>> <<BR>> |
}}} . '''Step Input:'''<<BR>> `read name; echo `''`$name`''<<BR>> <<BR>> '''Step Output:'''<<BR>> `read name`<<BR>> . ''and''<<BR>> `echo `''`$name`''<<BR>> <<BR>> |
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Look through the command to see whether there are any special operators such as `{..}`, `<(..)`, `< ...`, `<<< ..`, `.. | ..`, etc. These are all processed in a specific order. Redirection operators are removed from the command line, other operators are replaced by their resulting expression (eg. `{a..c}` is replaced by `a b c`). '''Step Input:'''<<BR>> `diff <(foo) <(bar)`<<BR>> <<BR>> '''Step Output:'''<<BR>> `diff /dev/fd/63 /dev/fd/62`<<BR>> ('''Note:''' The `<(..)` operator starts a background process to execute the command `foo` (and one for `bar`, too) and sends the output to a file. It then replaces itself with the pathname of that file.)<<BR>> <<BR>> |
. Look through the command to see whether there are any special operators such as `{..}`, `<(..)`, `< ...`, `<<< ..`, `.. | ..`, etc. These are all processed in a specific order. Redirection operators are removed from the command line, other operators are replaced by their resulting expression (eg. `{a..c}` is replaced by `a b c`). . '''Step Input:'''<<BR>> `diff <(foo) <(bar)`<<BR>> <<BR>> '''Step Output:'''<<BR>> `diff /dev/fd/63 /dev/fd/62`<<BR>> . ('''Note:''' The `<(..)` operator starts a background process to execute the command `foo` (and one for `bar`, too) and sends the output to a file. It then replaces itself with the pathname of that file.)<<BR>> <<BR>> |
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Bash has many operators that involve expansion. The simplest of these is `$parameter`. The dollar sign followed by the name of a parameter, which optionally might be surrounded by braces, is called ''Parameter Expansion''. What Bash does here is basically just replace the ''Parameter Expansion'' operator with the contents of that parameter. As such, the command `echo $USER` will in this step be converted to `echo lhunath` with me. Other expansions include ''Pathname Expansion'' (`echo *.txt`), ''Command Substitution'' (`rm "$(which nano)"`), etc. '''Step Input:'''<<BR>> `echo `"`$PWD has these files that match *.txt :`"` *.txt`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo `''`/home/lhunath/docs has these files that match *.txt :`''` bar.txt foo.txt`<<BR>> <<BR>> |
. Bash has many operators that involve expansion. The simplest of these is `$parameter`. The dollar sign followed by the name of a parameter, which optionally might be surrounded by braces, is called ''Parameter Expansion''. What Bash does here is basically just replace the ''Parameter Expansion'' operator with the contents of that parameter. As such, the command `echo $USER` will in this step be converted to `echo lhunath` with me. Other expansions include ''Pathname Expansion'' (`echo *.txt`), ''Command Substitution'' (`rm "$(which nano)"`), etc. . '''Step Input:'''<<BR>> `echo `"`$PWD has these files that match *.txt :`"` *.txt`<<BR>> <<BR>> '''Step Output:'''<<BR>> `echo `''`/home/lhunath/docs has these files that match *.txt :`''` bar.txt foo.txt`<<BR>> <<BR>> |
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The name of the command Bash has to execute is always the '''first word''' in the line. The rest of the command data is split into words which make the arguments. This process is called ''Word Splitting''. Bash basically cuts the command line into pieces wherever it sees whitespace. This whitespace is completely removed and the pieces are called ''words''. Whitespace in this context means: Any spaces, tabs or newlines that are '''not escaped'''. (Escaped spaces, such as spaces inside quotes, loose their special meaning of whitespace and are not used for splitting up the command line. They appear literally in the resulting arguments.) As such, if the name of the name of the command that you want to execute or one of the arguments you want to pass contains spaces that you don't want bash to use for cutting the command line into words, you can use quotes or the backslash character: {{{ |
. The name of the command Bash has to execute is always the '''first word''' in the line. The rest of the command data is split into words which make the arguments. This process is called ''Word Splitting''. Bash basically cuts the command line into pieces wherever it sees whitespace. This whitespace is completely removed and the pieces are called ''words''. Whitespace in this context means: Any spaces, tabs or newlines that are '''not escaped'''. (Escaped spaces, such as spaces inside quotes, lose their special meaning of whitespace and are not used for splitting up the command line. They appear literally in the resulting arguments.) As such, if the name of the command that you want to execute or one of the arguments you want to pass contains spaces that you don't want bash to use for cutting the command line into words, you can use quotes or the backslash character: {{{ |
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}}} '''Step Input:'''<<BR>> `echo `"`/home/lhunath/docs has these files that match *.txt :`"` bar.txt foo.txt`<<BR>> <<BR>> '''Step Output:'''<<BR>> '''Command Name: ''' '`echo`'<<BR>> '''Argument 1: ''' '`/home/lhunath/docs has these files that match *.txt :`'<<BR>> '''Argument 2: ''' '`bar.txt`'<<BR>> '''Argument 3: ''' '`foo.txt`'<<BR>> <<BR>> |
}}} . '''Step Input:'''<<BR>> `echo `"`/home/lhunath/docs has these files that match *.txt :`"` bar.txt foo.txt`<<BR>> <<BR>> '''Step Output:'''<<BR>> '''Command Name: ''' '`echo`'<<BR>> '''Argument 1: ''' '`/home/lhunath/docs has these files that match *.txt :`'<<BR>> '''Argument 2: ''' '`bar.txt`'<<BR>> '''Argument 3: ''' '`foo.txt`'<<BR>> <<BR>> |
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Now that the command has been parsed into a command name and a set of arguments, Bash executes the command and sets the command's arguments to the list of words it has generated in the previous step. If the command type is a function or builtin, the command is executed by the same Bash process that just went through all these steps. Otherwise, Bash will first fork off (create a new bash process), initialize the new bash processes with the settings that were parsed out of this command (redirections, arguments, etc.) and execute the command in the forked off bash process (child process). The parent (the Bash that did these steps) waits for the child to complete the command. '''Step Input:'''<<BR>> `sleep 5`<<BR>> <<BR>> '''Causes:'''<<BR>> `├┬· 33321 lhunath -bash`<<BR>> `│├──· 46931 lhunath sleep 5`<<BR>> <<BR>> |
. Now that the command has been parsed into a command name and a set of arguments, Bash executes the command and sets the command's arguments to the list of words it has generated in the previous step. If the command type is a function or builtin, the command is executed by the same Bash process that just went through all these steps. Otherwise, Bash will first fork off (create a new bash process), initialize the new bash processes with the settings that were parsed out of this command (redirections, arguments, etc.) and execute the command in the forked off bash process (child process). The parent (the Bash that did these steps) waits for the child to complete the command. . '''Step Input:'''<<BR>> `sleep 5`<<BR>> <<BR>> '''Causes:'''<<BR>> `├┬· 33321 lhunath -bash`<<BR>> `│├──· 46931 lhunath sleep 5`<<BR>> <<BR>> |
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=== Graphical Example === For a more simplified example of the process, see: http://stuff.lhunath.com/parser.png |
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Step 4 Results: {{{ |
. Step 4 Results: {{{ |
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for number in {$start..$end} }}} Step 5 Results: {{{ |
for number in {$start..$end} }}} Step 5 Results: {{{ |
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for number in {1..5} }}} And `number` will now become `{1..5}` instead of `1`. No ''Brace Expansion'' has been performed. |
for number in {1..5} }}} And `number` will now become `{1..5}` instead of `1`. No ''Brace Expansion'' has been performed. |
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* `[` * `B.` * `Foo` * `=` * `B.` * `Foo` * `]` A whole lot more than four. You need to use ''Quotes'' to prevent the space between `B.` and `Foo` from causing ''Word Splitting''. Quote the `B. Foo` '''AND''' the `$name` so that when `$name` is expanded, the whitespace in `B. Foo` is treated the same as on the right hand side. |
* `[` * `B.` * `Foo` * `=` * `B.` * `Foo` * `]` . A whole lot more than four. You need to use ''Quotes'' to prevent the space between `B.` and `Foo` from causing ''Word Splitting''. Quote the `B. Foo` '''AND''' the `$name` so that when `$name` is expanded, the whitespace in `B. Foo` is treated the same as on the right hand side. It is important to remember that step 5 (''Perform Expansion'') comes '''before''' step 6 (''Split the command into a command name and arguments''). That means that `$name` is not safe from having its result cut up, because the cutting up happens after `$name` is replaced by the value within `name`. |
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It is important to remember that step 5 (''Perform Expansion'') comes '''before''' step 6 (''Split the command into a command name and arguments''). That means that `$name` is not safe from having its result cut up, because the cutting up happens after `$name` is replaced by the value within `name`. | ---- CategoryShell |
The Bash Parser
It is imperative that you have a good understanding of how Bash reads your commands in and parses them into executable code. Knowing how Bash works with your code is the key to writing code that works well with Bash.
Step 1: Read data to execute.
Bash always reads your script or commands on the bash command prompt line by line. If your line ends with a backslash character, bash reads another line before processing the command and appends that other line to the current, with a literal newline inbetween. (I will from here on refer to the chunk of data Bash read in as the line of data; even though it is technically possible that this line contains one or more newlines.)
Step Input:
echo "What's your name?"
read name; echo "$name"
Step Output:
echo "What's your name?"
and
read name; echo "$name"
Step 2: Process quotes.
Once Bash has read in your line of data, it looks through it in search of quotes. The first quote it finds triggers a quoted state for all characters that follow up until the next quote of the same type. If the quoted state was triggered by a double quote ("..."), all characters except for $, " and \ lose any special meaning they might have. That includes single quotes, spaces and newlines, etc. If the quoted state was triggered by a single quote ('...'), all characters except for ' lose their special meaning. Yes, also $ and \. Therefore, the following command will produce literal output:
$ echo 'Back\Slash $dollar "Quote"' Back\Slash $dollar "Quote"
The fact that the backslash loses its ability to cancel out the meaning of the next character means that this will not work:$ echo 'Don\'t do this' >
Bash will ask you for the next line of input because unlike what we thought we did, the second quote, the one we tried to escape with the backslash, actually closed our quoted state meaning the t do this was not quoted. The last quote on the line then opened our quoted state again, and bash asks for more input until it is closed again (it tries to finish step 1: it reads data until it finds an unescaped newline. The opened single quote state is escaping our newline). Now that bash knows which of the characters in the line of data are escaped (stripped of their ability to mean anything special to Bash) and which are not, Bash removes the quotes that were used to determine this from the data and proceeds to the next step.
Step Input:
echo "What's your name?"
Step Output:
echo What's your name?
(Note: Every character originally between the double quotes has been marked as escaped. I will mark escaped characters in these examples by making them italic.)
Step 3: Split the read data into commands.
Our line is now split up into separate commands using ; as a command separator. Remember from the previous step that any ; characters that were quoted or escaped do not have their special meaning anymore and will not be used for command splitting. They will just appear in the resulting command line literally:
$ echo "What a lovely day; and sunny, too!" What a lovely day; and sunny, too!
Step Input:
read name; echo $name
Step Output:
read name
and
echo $name
The following steps are executed for each command that resulted from splitting up the line of data:
Step 4: Parse special operators.
Look through the command to see whether there are any special operators such as {..}, <(..), < ..., <<< .., .. | .., etc. These are all processed in a specific order. Redirection operators are removed from the command line, other operators are replaced by their resulting expression (eg. {a..c} is replaced by a b c).
Step Input:
diff <(foo) <(bar)
Step Output:
diff /dev/fd/63 /dev/fd/62
(Note: The <(..) operator starts a background process to execute the command foo (and one for bar, too) and sends the output to a file. It then replaces itself with the pathname of that file.)
Step 5: Perform Expansions.
Bash has many operators that involve expansion. The simplest of these is $parameter. The dollar sign followed by the name of a parameter, which optionally might be surrounded by braces, is called Parameter Expansion. What Bash does here is basically just replace the Parameter Expansion operator with the contents of that parameter. As such, the command echo $USER will in this step be converted to echo lhunath with me. Other expansions include Pathname Expansion (echo *.txt), Command Substitution (rm "$(which nano)"), etc.
Step Input:
echo "$PWD has these files that match *.txt :" *.txt
Step Output:
echo /home/lhunath/docs has these files that match *.txt : bar.txt foo.txt
Step 6: Split the command into a command name and arguments.
The name of the command Bash has to execute is always the first word in the line. The rest of the command data is split into words which make the arguments. This process is called Word Splitting. Bash basically cuts the command line into pieces wherever it sees whitespace. This whitespace is completely removed and the pieces are called words. Whitespace in this context means: Any spaces, tabs or newlines that are not escaped. (Escaped spaces, such as spaces inside quotes, lose their special meaning of whitespace and are not used for splitting up the command line. They appear literally in the resulting arguments.) As such, if the name of the command that you want to execute or one of the arguments you want to pass contains spaces that you don't want bash to use for cutting the command line into words, you can use quotes or the backslash character:
My Command /foo/bar ## This will execute the command named 'My' because it is the first word. "My Command" /foo/bar ## This will execute the command named 'My Command' because the space inside the quotes has lost its special meaning allowing it to split words.
Step Input:
echo "/home/lhunath/docs has these files that match *.txt :" bar.txt foo.txt
Step Output:
Command Name: 'echo'
Argument 1: '/home/lhunath/docs has these files that match *.txt :'
Argument 2: 'bar.txt'
Argument 3: 'foo.txt'
Step 7: Execute the command.
- Now that the command has been parsed into a command name and a set of arguments, Bash executes the command and sets the command's arguments to the list of words it has generated in the previous step. If the command type is a function or builtin, the command is executed by the same Bash process that just went through all these steps. Otherwise, Bash will first fork off (create a new bash process), initialize the new bash processes with the settings that were parsed out of this command (redirections, arguments, etc.) and execute the command in the forked off bash process (child process). The parent (the Bash that did these steps) waits for the child to complete the command.
Step Input:
sleep 5
Causes:
├┬· 33321 lhunath -bash
│├──· 46931 lhunath sleep 5
- Now that the command has been parsed into a command name and a set of arguments, Bash executes the command and sets the command's arguments to the list of words it has generated in the previous step. If the command type is a function or builtin, the command is executed by the same Bash process that just went through all these steps. Otherwise, Bash will first fork off (create a new bash process), initialize the new bash processes with the settings that were parsed out of this command (redirections, arguments, etc.) and execute the command in the forked off bash process (child process). The parent (the Bash that did these steps) waits for the child to complete the command.
After these steps, the next command, or next line is processed. Once the end of the file is reached (end of the script or the interactive bash session is closed) bash stops and returns the exit code of the last command it has executed.
Graphical Example
For a more simplified example of the process, see: http://stuff.lhunath.com/parser.png
Common Mistakes
These steps might seem like common sense after looking at them closely, but they can often seem counter intuitive for certain specific cases. As an example, let me enumerate a few cases where people have often made mistakes against the way they think bash will interprete their command:
start=1; end=5; for number in {$start..$end}: Brace Expansion happens in step 4 while Parameter Expansion happens in step 5. Brace Expansion tries to expand {$start..$end} but can't. It sees the $start and $end as strings, not Parameter Expansions and gives up:
- Step 4 Results:
start=1 end=5 for number in {$start..$end}
Step 5 Results:start=1 end=5 for number in {1..5}
And number will now become {1..5} instead of 1. No Brace Expansion has been performed.
- Step 4 Results:
[ $name = B. Foo ]: Word Splitting will break this example. The test program ([) looks for four arguments in this case. A left hand side, an operator, a right hand side, and a closing ]. To find out what's wrong with this command, do as Bash does: Chop the command up into arguments. Assuming name contains B. Foo:
[
B.
Foo
=
B.
Foo
]
A whole lot more than four. You need to use Quotes to prevent the space between B. and Foo from causing Word Splitting. Quote the B. Foo AND the $name so that when $name is expanded, the whitespace in B. Foo is treated the same as on the right hand side. It is important to remember that step 5 (Perform Expansion) comes before step 6 (Split the command into a command name and arguments). That means that $name is not safe from having its result cut up, because the cutting up happens after $name is replaced by the value within name.