# Cheat Sheet # Bash Cheatsheet ### Multi-line Command To execute multi-line command in bash script simple put a \\ after breaking up your commands. There should be no white spaces after the backslash, else it will fail! Every single line should be followed by a \\ until you finished typing the command. ``` curl https://cat.png \#no spaces after! -o here.txt \ ``` ### If-Statements In Bash the if-statements follows the structure: ```bash if CONDITION then COMMAND elif CONDITION then COMMAND else COMMAND fi ``` As you can see every if chain will end with *fi* keyword. Every *if/elif* condition statement will be followed by the *then* keyword. If you want to put the *then* on the same line with the *if* keyword, and because *if, then, else, elif, fi* are all shell keyword they cannot be used on the same-line. To fix this you have to put a ; to end the previous statement and the keyword before you can use another keyword. As an example: ```bash if CONDITION; then COMMAND fi ``` #### Conditions Okay, now we know the basic of if-statements how do I put it into use by filling in the conditions? There are couple different ways of writing conditions, here I will only go over the most commonly used ones. 1\. ```bash # The first way is using test if test ; then COMMAND fi ``` Using this method you can test whether the files exists, and compare values. It has it's own set of syntax for example to check if a certain file named "foo.txt" exists then you would type `test -f "foo.txt"` and it will evaluate to true if only the file "foo.txt" exists. For comparing values we cannot use the symbols directly, ==, <, >, <=, or >=. Instead we have to use their flag equivalent below:
Compartor Flag Equivalent
== -eq
> -gt
< -lt
>= -ge
<= -le
or ||
and &&
not !
You can also append *!* to negate the expression to check the opposite. **Use *=* to do string equality comparison.** 2\. ```bash # The second way is using [] square brackets if [ some test ]; then COMMAND fi ``` The square bracket is like *test* and essentially all the operators that you can use with *test* you can also use in the square brackets. There must be a space between the test and the left bracket, \[ and the right bracket, \], otherwise Bash cannot understand it! 3\. ```bash # The third way is using [[]] double square brackets if [[ some test ]]; then COMMAND fi ``` The double square brackets is like an upgrade of the normal square bracket. It comes from *ksh*. With the double square brackets you can use some of the comparison operators without using the flags. So we are allowed to use >, =, and <, but they are used in **lexicographical comparison!** However, <= and >= still requires the flag equivalent. 4\. ```bash if command;then COMMAND fi ``` Bash runs the command you have provided and then will run the if-statement according to the exit code. It will run it if the exit code is 0, and will not run it if it is not 0.

Remember in programming, 0 represent the command carried out successfully, and anything not 0 represent some sort of errors occurred.

### Variables & Arrays To declare a variable in Bash follow the following syntax structure: ```bash VAR_NAME=VALUE ``` You must not use any spaces between the variable name and the value! Otherwise, it will error out because you are not following Bash syntax! #### Command Output -> Variable To store the output of a command into a variable follow the following syntax structure ```bash VAR_NAME=$(COMMAND ARGS) OR VAR_NAME=`COMMAND ARGS` ``` This will do command substitution, it will execute the command and then substitute the return value as the value. To prevent the output of the command from being processed for word splitting (i.e. the \\n loses their meaning in a text file), you would quote the command substitution `"$(COMMAND ARGS)"` to prevent word splitting. From the GNU shell specification: **"The shell scans the results of parameter expansion, command substitution, and arithmetic expansion that did not occur within double quotes for word splitting."** #### Arrays To declare a array follow the following syntax structure: ```bash arr=(1 2 3 4 5 6 7) OR arr=( "hello" "world" "hehe" "xd" ) ``` The array can contain different types, either an integer, float, or even strings. You can refers to each individual elements using `${var_name[index]}`, the *index* are 1-based indices. To refer to the entire array for say the usage of running a command with arguments from the entire array you can use `$array_name[@]` to refer to all of the elements from the array. #### Array Operation Summary Table
Syntax What it Does
`arr=()` Create an empty array
`arr=(1 2 3)` Initialize an array
`${arr[2]}` Get the third element
`${arr[@]}` Get all of the elements
`${!arr[@]}` Get the indices of all the elements
`${#arr[@]}` Get the length of the array
`arr[0]=3` Overwrite the first element with value 0
`arr+=(4)` or `arr+=($another_variable)` Add a new value to the array
### Let and (( )) Construct The `let` built-in command allows you to do arithmetic operations on variables. It can be used to do a simple increment operations. Examples below:
Command What it Does
`let a=11` Same as `a=11`
`let a=a+5` or `let "a = a + 5"` Both set `a` to be 5 more of itself
`let "a <<= 3"` Left-shifts `a` 3 places
`let "a += 4"` or the other math operators Same as `let "a /= 4"`
`let a++` or `let "a++"` C-style operators works as well!
Some simple operations like increment cannot be carried out by the Bash directly so you would use `let` command to actually do the increments! You do not need to refer to the variable names using dollar signs. You can replace all the operators described above in between `(( ))` to have the same effect, minus the need for using double quotations. Addition, subtraction, division, multiplication, bit shifts, post/pre increment all works. ### For Loops To do for loops there are couples of ways: 1\. Looping through array elements ```bash for ele in ${array[@]}; do echo $ele done ``` 2\. Looping through array indices ```bash for i in ${!array[@]}; do echo $i done ``` 3\. Looping through range, the end is included ```bash for value in {start..end..step} do COMMAND done ``` The keyword `break` and `continue` are also available for use in the for loop just like how it would work in any other languages. ### While Loops While loops have the basic structure as follows: ```bash while [ some test ] do COMMANDS done ``` ### Bash Functions There are two ways of writing a bash function ```bash function_name() { echo "This is the body of the bash function" } ``` ```bash function another_bash_function() { echo "This is another function!" } ``` With either way you would be invoking the function by just calling it like it is a command. For example, to invoke the first function you would simply type `function_name` and then provide any argument that you would like to pass into the function. The arguments passed into the function can be accessed using `$1, $2, $3, ...` just like in bash script. `$#, $@` works as well with respective to the argument passed to the function, not the script! # Vim Cheatsheet ##### Mandatory get out of Vim joke Ughhh how do I escape Vim? ``` # :wq, write the changes to the file and quit # :q, quit if there is no changes # :q!, quit without saving ``` ##### Basics ``` ^ k Hint: The h key is at the left and moves left. < h l > The l key is at the right and moves right. j The j key looks like a down arrow. v ``` This is how you would be moving your cursors around in the file They can be preceeded by a number to tell how many lines to say go down or go to the left. For example: Pressing 10 and then h will move your cursors to the left 10 characters.
**Command** **Description**
`x` Delete the character at the cursor
`i, a, A` Insert character at the cursor, insert character after the cursor (append), and append to the end of the line respectively.
`` Put you into normal mode if you're in insertion mode, replace mode, or other modes
`w, e, b` Use it to traverse skip through each word to the start of each other, or to the end of each word. Use `b` to go back a word.
`dw, de, d$, dd` Delete from cursor up to the next word Delete from cursor up to the end of the word only Delete from cursor to the end of the line Delete the entire line regardless where your cursor is
`operator [number] motion`Operator such as `d` can be specified together with a number to tell it how many times to repeat the motion. Motion tells which text to operate on, `w, e, $`
`u, U, CTRL-R` Undo previous action Undo all the changes on the current line Redo, (undo the undo)
`p` Paste what was deleted with the `d` operator
`rx, R` Replace the current character with x, where x can be any character Enter in replace mode where every character you type will be replacing the one that's on the cursor.
`CTRL-G` Display current line number
`G, G` Move to the end of the file Move to the line number specified
`gg` Move to the first line of the file
`/, ?` `n, N` `CTRL-o, CTRL-i` Used for searching patters forward and backward respectively Used to find the next occurrence of the pattern in the direction specified, `N` is used to find the previous occurrence. `CTRL-o, CTRL-i` take you back to the older/newer position so you don't have to scroll back to where you are respectively
`%` Used to find the matching ( ), \[ \], { }
`:!command` Will execute external command, like `ls`
`:w FILENAME` Write the current Vim file to another file called FILENAME
`v` Visual mode, let you see what you are highlighting and then you can apply other operator such as deleting the highlighted text.
`:r FILENAME` Read in the specified file and then paste it below the cursor Can be used together with command to paste the output of the command. `:r !ls`
##### Some more command
**Command** **Description**
`o, O` To insert a empty line below and above the current line
`y` Copies text, `yy` copies the entire line. Can be used together with `v` to highlight a good section of the file and then paste it with `p`
`CTRL-W CTRL-W` To jump to another opened window
`:terminal` Open up a terminal within Vim this is pretty cool
##### Set command Some settings in Vim can be changed for example if you want to show line numbers you can do `:set number` to toggle on displaying the line number on the side. You can toggle it off by prepending a `no` to the original toggle, for example `:set nonumber` will disable displaying the line number on the side.