shFlags is more than just a simple 20 line shell script. It is a significant library of shell code that at first glance might not seam easy to understand. To improve code readability and usability, these guidelines are followed to help make the code more understandable for anyone who wants to read or modify it.
Declare functions using the following form:
doSomething() { echo 'done!' }
One-line functions are allowed if they are for a single command.
doSomething() { echo 'done!'; }
Each function should be preceded by a header that provides the following:
A one-sentence summary of what the function does.
(optional) A longer description of what the function does, and perhaps some special information that helps convey its usage better.
Args: a one-line summary of each argument of the form:
name: type: description
Output: a one-line summary of the output provided. Only output to STDOUT must be documented, unless the output to STDERR is of significance (i.e. not just an error message). The output should be of the form:
type: description
Returns: a one-line summary of the value returned. Returns in shell are always integers, but if the output is a true/false for success (i.e. a boolean), it should be noted. The output should be of the form:
type: description
Here is a sample header:
# Return valid getopt options using currently defined list of long options. # # This function builds a proper getopt option string for short (and long) # options, using the current list of long options for reference. # # Args: # _flags_optStr: integer: option string type (__FLAGS_OPTSTR_*) # Output: # string: generated option string for getopt # Returns: # boolean: success of operation (always returns True)
All shFlags specific constants, variables, and functions will be prefixed appropriately with flags. This is to distinguish usage in the shFlags code from users own scripts so that the shell name space remains predictable to users. The exceptions here are the standard assertEquals, etc., functions.
All non built-in constants and variables will be surrounded with squiggle brackets, e.g. ${flags_someVariable} to improve code readability.
Due to some shells not supporting local variables in functions, care in the naming and use of variables, both public and private, is very important. Accidental overriding of the variables can occur easily if care is not taken as all variables are technically global variables in some shells.
| Type | Sample |
|---|---|
| global public constant | FLAGS_TRUE |
| global private constant | __FLAGS_SHELL_FLAGS |
| global public variable | flags_variable |
| global private variable | __flags_variable |
| global macro | _FLAGS_SOME_MACRO_ |
| public function | flags_function |
| public function, local variable | flags_variable_ |
| private function | _flags_function |
| private function, local variable | _flags_variable_ |
Where it makes sense to improve readability, variables can have the first letter of the second and later words capitalized. For example, the local variable name for the help string length is flags_helpStrLen_.
There are three special-case global public variables used. They are used due to overcome the limitations of shell scoping or to prevent forking. The three variables are:
flags_errorflags_outputflags_returnAs many shells do not support local variables, no support for cleanup of variables is present either. As such, all variables local to a function must be cleared up with the unset built-in command at the end of each function.
Code block indentation is two (2) spaces, and tabs may not be used.
if [ -z 'some string' ]; then someFunction fi
Lines of code have no line limit, although the general preference is to wrap lines at reasonable boundaries (e.g., between if/then/else clauses). When long lines are wrapped using the backslash character '', subsequent lines should be indented with four (4) spaces so as to differentiate from the standard spacing of two characters, and tabs may not be used.
for x in some set of very long set of arguments that make for a very long \ that extends much too long for one line do echo ${x} done
When a conditional expression is written using the built-in [ command, and that line must be wrapped, place the control || or && operators on the same line as the expression where possible, with the list to be executed on its own line.
[ -n 'some really long expression' -a -n 'some other long expr' ] && \ echo 'that was actually true!'