# ArgParse-sh Utility for parsing arguments to shell scripts and providing the results as environment variables. # Installation ## Cargo Install The preferred method of install uses `cargo`, the Rust tool. If you have Rust installed on your local machine, run: ```sh cargo install argparse-sh ``` The binary will be built and put in your `~/.cargo/bin/` folder. Add that to your `PATH` or reference it directly, and you are all set. ## Building From Source You can download and build the application from source code. This also requires Rust to be installed on your local machine, as well as Git. To do this, run: ```sh git clone git@github.com:Hounshell/argparse-sh.git cd argparse-sh cargo build --release ``` The compiled binary will be in `target/release/argparse-sh`. Put this wherever you like and add it to your `PATH` or reference it directly. # Usage ArgParse-sh takes two sets of arguments. The first set defines all of the arguments that will be parsed. The second set is the arguments to parse. This is probably best clarified via a minimal demonstration: ```sh $ argparse-sh --string text -- --text "Hello, world!" TEXT="Hello, world!" ``` What did this do? It defined a set of arguments (one string argument called "text") and then parsed a set of argument values. The output is a script that sets environment variables for the arguments provided. This is a minimal example, but it isn't a very useful one. Instead lets drop this into a script and pass arguments on the script through to ArgParse-sh: **demo.sh** ```sh eval "$(argparse-sh --string text -- "$@")"; echo "$TEXT" ``` Let's break this script up into various pieces: - `argparse-sh` - This invokes the ArgParse-sh program - `--string text` - This indicates to ArgParse-sh that we can accept an optional argument called "text". The value is a string and there is no default value. - `--` - This indicates to ArgParse-sh that we are done defining arguments. All remaining command line parameters should be treated as argument values. - `"$@"` - This forwards all of the parameters that the script was called with to ArgParse-sh. Because this is after the `--`, ArgParse-sh will interpret these parameters. - `eval "$(...)";` - The output of ArgParse-sh is script commands. `eval` executes these commands in the current shell. - `echo "$TEXT"` - The script commands that ArgParse-sh will output set environment variables with the value of the arguments. This will print the value of whatever was passed in for the "text" argument. If we run `demo.sh` we can see this all work in action: ```sh $ ./demo.sh --text "Hello, world!" Hello, world! ``` ArgParse-sh recognizes the `--text` argument and expects a string. That string ("Hello, world!") is written to an environment variable called "TEXT" (based on the argument's name), which can then be used by the remainder of the script. In several examples below we will omit the `eval` part of the argparse-sh command. This will cause the ArgParse-sh output to dump to the screen, allowing us to see what is happening more clearly. ## Argument Types There are several supported argument types. Generally they share the same set of options (where it makes sense for them to do so), and some have additional options or forms. ### Common Argument Parameters There is a common pattern to defining arguments, as well as a number of common parameters that can be provided: #### --\ \[\ \ \ ...] To begin defining an argument we need to specify the argument type. After the type we may provide shorthand for the name and the keys that can be used to provide this argument. This shorthand covers the most common cases, but you are not required to use it; the name and flags can be defined individually. The types available are: - **--boolean** or **--bool** - A "true" or "false" value. - **--choice** or **--pick** - One selection from a list of options. - **--float** or **--number** - A 64 bit floating point number. - **--integer** or **--int** - A 64 bit signed integer. - **--string** or **--str** - Free-form text. ##### Example: ```sh $ argparse-sh --string given-name first-name name -- --first-name "Alice" GIVEN_NAME="Alice" ``` This creates a single string argument called "GIVEN\_NAME" that can be set using either `--given-name`, `--first-name`, or `--name`. This is the shorthand form of: ```sh $ argparse-sh --string --name GIVEN_NAME \ --flag "--given-name" \ --flag "--first-name" \ --flag "--name" \ -- --first-name "Alice" GIVEN_NAME="Alice" ``` #### --name \ Provide the name of the environment variable the value for this argument will be stored in. If the name is not provided, the first flag defined (either using --flag or the shorthand above) will be normalized and used. Normalization removes any preceeding or trailing non-alphanumeric characters. All other sequences of non-alphanumeric sequences will be replaced with "\_" and the entire string will be capitalized. For example, if the first flag is "--first-name" the normalized name would be "FIRST\_NAME". ##### Example: ```sh $ argparse-sh --string name --name FIRST_NAME -- --name "Alice" FIRST_NAME="Alice" ``` This will configure a string argument that can be set using `--name "Name"`, but will be stored in the `FIRST_NAME` environment variable. #### --flag \ Provides a flag that can be used to specify this argument's value. The flag will be used as-is, with capitalization and hyphens. This is a good way to support shorter flags. You are allowed to specify a flag name without a hyphen at all. ##### Example: ```sh $ argparse-sh --string name --flag "--first-name" --flag "-n" -- -n Alice NAME="Alice" ``` This defines a string argument called "NAME" using the shorthand method, but alternate flags ("--first-name" and "-n") are also defined as available for use. #### --default \ Provide the default value to use if this argument is not specified. **Warning:** This default value is not parsed or validated; invalid values will be passed on through. ##### Example: ```sh $ argparse-sh --string name --default "Alice" NAME="Alice" ``` If `-- --name "Bob"` had been provided then `NAME` would have been set to "Bob" instead of "Alice". #### --desc\[ription] \ Provide a description to use for this argument when generating help text. ##### Example: ```sh $ eval "$(argparse-sh --string name --desc "The user's first name." --autohelp -- --help)" OPTIONS --name The user's first name. ``` We used `eval` in this example because it's hard to see the output otherwise. Help was generated for all of the arguments (in this case only `--name` was specified), and the help text was used in the description of that argument. #### --repeated Indicates that this argument may be repeated. If an argument is repeated then the environment variable will be set to the number of values that exist, and each value will be set as its own environment variable, with a 0-based suffix for the index. ##### Example: ```sh $ argparse-sh --string name --repeated -- --name "Alice" --name "Bob" --name "Carol" NAME="3" NAME_0="Alice" NAME_1="Bob" NAME_2="Carol" ``` Here we can see that three names were supplied. Each value for `--name` was included in order. #### --required Indicates that this argument is required. If not provided ArgParse-sh will fail. ##### Example: ```sh $ argparse-sh --string name --required echo "" echo "!!! ArgParse-sh Error: Value for argument NAME is missing !!!" echo "" $ echo $? 2 ``` An error message is shown indicating that the "name" argument wasn't supplied. The exit code from ArgParse-sh when there is an error parsing the arguments is 2. #### --secret Marks an argument for non-inclusion in generated help text. ##### Example: ```sh $ eval "$(target/debug/argparse-sh --string name --secret --string age --autohelp -- --help)" OPTIONS --age No details available. ``` Again we use `eval` for clarity. Note that help text is generated for the "age" argument, but not for the "name" argument. #### --catch-all This is used to mark an argument that will be get any unrecognized values. This is particularly useful for repeated arguments where you don't want to require the user to specify the flag name. Note that catch-all arguments don't ***require*** any flags, but it is advised that you still provide some to the user so that they can use the `--flag=value` syntax. If not using any flags then the argument **must** have a name. ##### Example: ```sh $ argparse-sh --string name --catch-all -- "Bob" NAME="Bob" ``` #### --ordinal \ Makes this argument act like a catch-all argument, except it will only take a single value, and only if a value hasn't been explicitly provided. The `order` is an integer that provides the order that ordinal arguments are filled. The lowest argument that does not already have a value (e.g. the user hasn't explicitly provided a value for this argument via a flag) will be used next. This means that ordinals can start at whatever number you like, and can have gaps between the numbers. ##### Example: ```sh $ argparse-sh \ --string first_name --ordinal 1 --required \ --string middle_name --ordinal 2 --required \ --string last_name --ordinal 3 --required \ -- --middle_name "Quincy" "Alice" "Smith" FIRST_NAME="Alice" MIDDLE_NAME="Qunicy" LAST_NAME="Smith" ``` ### String Arguments (--string or --str) String arguments do not perform any validation or re-writing of their values. These are simply passed through to the environment variable. String arguments support all of the common argument parameters. #### Example: ``` $ argparse-sh \ --string first-name --required \ --string last-name --default "Doe" \ --string nickname --repeated --catch-all \ -- \ --first-name "John" \ --nickname "Sticky Fingers" \ --nickname "Tight Lips" FIRST_NAME="John" LAST_NAME="Doe" NICKNAME="2" NICKNAME_0="Sticky Fingers" NICKNAME_1="Tight Lips" ``` ### Integer Arguments (--integer or --int) Integer arguments are validated. The value provided must be parseable as a 64 bit signed integer. If an invalid argument is provided then argparse-sh will fail with a message and an error code of 2. Integer arguments support all of the common argument parameters. **Important:** If a default value is provided it is not validated. You are responsible for ensuring that the provided value resolves to an integer, or your script is able to handle non-integer values. #### Example: ``` $ argparse-sh \ --integer age --required \ --integer children --default 0 \ --integer pockets --required --catch-all \ -- \ --age 42 \ 7 AGE="42" CHILDREN="0" POCKETS="7" ``` ### Float Arguments (--float or --number) Float arguments are also validated. The value provided must be parseable as a 64 bit floating point number. If an invalid argument is provided then argparse-sh will fail with a message and an error code of 2. Float arguments support all of the common argument parameters. **Important:** If a default value is provided it is not validated. You are responsible for ensuring that the provided value resolves to a number, or your script is able to handle non-numeric values. #### Example: ``` $ argparse-sh \ --float height --required \ --float weight --default 0 \ --float cash-on-hand --catch-all \ -- \ --height 180.4 \ 72.34 HEIGHT="180.4" WEIGHT="0" CASH_ON_HAND="72.34" ``` ### Choice Arguments (--choice or --pick) Choice arguments are a little different than other argument types, but they are most similar to String arguments. With Choice arguments you supply a list of valid choices and alternate mappings. If an unrecognized value is provided then argparse-sh will fail with a message and an error code of 2. **Important:** If a default value is provided it is not validated and it is not mapped. You are responsible for ensuring that the provided value resolves to one of your choices, or your script is able to handle this value. #### --option \ \[\] Choice arguments expect one or more option parameters. After `--option` you must include the option name. You may also provide help text that is shown after that option. #### --map \ \ Maps from one option to another. This provides an easy way to have multiple names for a specific option. **Important:** You can map to an option that does not exist. You are responsible for ensuring that the option that you map to exists. Mappings are not chained; if you map from "a" to "b" and "b" to "c" and the user provides "a", the value will be "b". #### Example: ``` $ argparse-sh \ --choice gender --default "none" \ --option male "Person identifies as male" \ --option female "Person identifies as female" \ --map boy male \ --map girl female \ --option other "Person identifies as something else" \ --option none "Person declines to identify" \ -- \ --gender boy GENDER="male" $ eval "$(argparse-sh \ --choice gender --default "none" \ --option male "Person identifies as male" \ --option female "Person identifies as female" \ --map boy male \ --map girl female \ --option other "Person identifies as something else" \ --option none "Person declines to identify" \ --autohelp \ -- \ --help)" OPTIONS --gender No details available. The possible options are: • male - Person identifies as male • female - Person identifies as female • boy - Identical to 'male' • girl - Identical to 'female' • other - Person identifies as something else • none - Person declines to identify When this option is not provided it will default to 'none'. ``` ### Boolean Arguments (--boolean or --bool) Boolean arguments, like Choice arguments, have additional behavior. By default boolean arguments do not have a value. If the user does not specify the argument then the variable will not be set. If the user provides the flag with `--flag-name` then the value of the boolean argument will be "true". However, users can also explicitly specify the value by using `--flag-name=false`. The user input will only accept "true" and "false". You can utilize the `--default` flag to ensure that this is always set. Boolean arguments can not be repeated, can not have any ordinals, and can not be a catch-all. If you attempt to define one with any of these characteristics you will get a definition error. ##### Example: ``` $ argparse-sh --boolean happy -- --happy HAPPY="true" ``` #### --negative-flag \ Boolean arguments allow defining negative flags. These are flags that force the value to "false". Negation flags are explicitly defined. #### Example: ```sh $ argparse-sh --boolean happy --negative-flag "--not-happy" -- --not-happy HAPPY="false" ``` This technique is particular useful when combined with either a `--default` paramater or a `--required` parameter: ```sh $ argparse-sh --boolean happy --negative-flag "--sad" --required -- --sad HAPPY="false" $ argparse-sh --boolean --name "HAPPY" --negative-flag "--sad" --default "true" -- HAPPY="true" ``` The first line requires that you include either `--happy` or `--sad`. If you don't include either you will get a user error. If you include both you will get an error due to having multiple values for "HAPPY". The second line defines "HAPPY" as a boolean that defaults to "true", but can be made "false" by including the `--sad` argument. ## Other Runtime Options There are a handful of other options that can be used when running argparse-sh. These can be included anywhere in the list of arguments, but it is recommended that you put these at the beginning or end of the arguments. They can not be placed inside an argument definition (e.g. `argparse-sh --bool --debug --name bad-example` is ***not*** allowed). ### --debug Writes debugging information out via echo. This is useful when trying to determine why an argument is not behaving the way you expected. #### Example: ``` $ eval "$(argparse-sh \ --choice gender --default "none" \ --option male "Person identifies as male" \ --option female "Person identifies as female" \ --map boy male \ --map girl female \ --option other "Person identifies as something else" \ --option none "Person declines to identify" \ --debug \ -- \ --gender boy)" [ArgParse-sh] ArgParse-sh debugging enabled with --debug flag [ArgParse-sh] Arguments are not exported to child processes [ArgParse-sh] [ArgParse-sh] Definition - type: Choice; name: GENDER; flags: gender; default: none; options: male, female, boy -> male, girl -> female, other, none [ArgParse-sh] [ArgParse-sh] Parsing argument values [ArgParse-sh] [ArgParse-sh] Parsed argument GENDER = 'male' [ArgParse-sh] [ArgParse-sh] Setting GENDER = "male" [ArgParse-sh] [ArgParse-sh] ArgParse-sh completed successfully ``` ### --auto-help ### --export ### --prefix \ ### --program-name \ ### --program-summary \ ### --program-description \ ## Exit Codes - 0 - Success When ArgParse-sh completes successfully the exit code will be 0. If this happens you can be sure that all required arguments have been set, all provided arguments have been parsed, and all type checks completed successfully. - 1 - Help If the `--autohelp` flag was used and the user passed in `--help` then help text will be written to screen (using the user's PAGER if set) and ArgParse-sh will exit with a code of 1. - 2 - Definition Error If there's an issue with the definition of the arguments the exit code will be 2. For example, not including an argument name after `--name` would generate this error. - 3 - User Error This error code is returned if there is a problem with the arguments that the user provided. An omitted argument that is marked as required, or multiple values for arguments that are not repeated are examples of this. If you run `set -e` before calling argparse-sh, your script will automatically exit if ArgParse-sh returns an exit code other than 0. You can also trap this error to recover more gracefully. ## Putting it all together. This is an example of a script using a wide variety of functionality along with best practices. **demo.sh** ```sh # Set shell to exit immediately after failed command. set -e; # The description is long, so we pulled it out into a variable for clarity. PROGRAM_DESCRIPTION="This demo program provides a number of examples of how to use ArgParse-sh. You can provide a number of arguments that are parsed and sent back to the wrapper script as environment variables. Feel free to save this script and run it with a variety of parameters to test things out."; # Run ArgParse-sh with argument definitions and pass command line through. eval "$(argparse-sh \ --string given-name first-name \ --description "Name given to you. In western cultures this is usually your first name." \ --required \ --string family-name last-name \ --description "Name inherited from your family. In western cultures this is usually your last name." \ --required \ --string nickname \ --name NICKNAMES \ --description "Nicknames that you are commonly known by." \ --repeated \ --integer age \ --description "Your age in years." \ --required \ --integer children \ --default 0 \ --secret \ --choice gender \ --description "The gender that you identify as." \ --option male "Person identifies as male" \ --map boy male \ --option female "Person identifies as female" \ --map girl female \ --option other "Person identifies as something else" \ --option none "Person declines to identify" \ --default none \ --boolean basic-data one-line single-line \ --description "Include this argument if you only want to see the first line in the output." \ --string quote \ --name QUOTES \ --description "Include one or more quotes that you find inspirational." \ --repeated \ --required \ --catch-all \ --auto-help \ --prefix "DEMO_" \ --program-name "$(basename "$0")" \ --program-summary "Sample script that uses argparse-sh to parse command line arguments." \ --program-description "$PROGRAM_DESCRIPTION" \ -- "$@")"; # Dump some of the basic variables to the screen. echo "Hello $DEMO_GIVEN_NAME. I see you are $DEMO_AGE years old and have $DEMO_CHILDREN children."; # We can test for existence of boolean variables if [ "$DEMO_BASIC_DATA" = "true" ]; then exit fi # We can use if statements to switch logic based on the results of a flag. if [ "$DEMO_GENDER" = "male" ]; then echo "You identify as male." elif [ "$DEMO_GENDER" = "female" ]; then echo "You identify as female." elif [ "$DEMO_GENDER" = "other" ]; then echo "You identify as something other than strictly male or female." else echo "You have declined to provide your gender identity." fi # We can test to see if variables are set, even for repeated arguments. if [ -n "$DEMO_NICKNAMES" ]; then echo "" echo "You have $DEMO_NICKNAMES nickname(s):"; for (( i=0; i<$DEMO_NICKNAMES; i++ )); do # We need to do this expansion to iterate over all of the values in the list. NICKNAME=DEMO_NICKNAMES_$i echo " ${!NICKNAME}"; done fi # If an argument is required you can be guaranteed that the value is set, even for repeated args. echo "" echo "You have $DEMO_QUOTES favorite quote(s):"; for (( i=0; i<$DEMO_QUOTES; i++ )); do QUOTE=DEMO_QUOTES_$i echo " ${!QUOTE}"; done ``` You can run this script with `--help` to get the help text