cmdparse
is, as the name suggests, parses user commands into arbitrary Rust types.
Generally, this crate can be viewed as a data deserialization framework. It defines a syntax designed to be easy to entered interactively and includes utilities for transforming the input in this format into arbitrary Rust types, as well as automatically suggesting completions for incomplete user input.
It is not suitable for parsing command line arguments, even though the syntax it supports is
fairly similar to what those would look like. Instead, it was designed to be used for parsing
commands entered interactively inside the application. Of course, you are not limited to this
use case and free to use cmdparse
as a generic data deserialization framework in any way
you like.
Let’s consider the following example. It defines a struct MailSendCommand
and derives
Parsable
trait for it. This is enough to be able to parse it.
use cmdparse::{Parsable, parse};
#[derive(Debug, PartialEq, Eq, Parsable)]
struct MailSendCommand {
text: String,
#[cmd(attr(subject), default = "\"no subject\".to_string()")]
subject: String,
#[cmd(attr(to))]
to: Vec<String>,
}
let input = "\"Hello, world\" --to user1@example.com user2@example.com --subject Greeting";
let result = parse::<_, MailSendCommand>(input, ())?;
assert_eq!(result, MailSendCommand {
text: "Hello, world".to_string(),
subject: "Greeting".to_string(),
to: vec!["user1@example.com".to_string(), "user2@example.com".to_string()],
});
This example demonstrates several features of cmdparse
:
- Parsing functionality can be automatically derived for an arbitrary struct or enum as long
as the inner types are
Parsable
or there is an appropriateParser
for them. (To learn about the distinction between parsable and parser, read documentation for these traits). - Derived parser is configurable: you may make fields either required or optional. Optional
fields can be specified via a name attribute (
--
token). They can have a default value explicitly specified (see default attribute on thesubject
field) or not (to
field defaults to an empty vector, as per itsDefault
implementation) - Parsable values can contain nested parsable values:
MailSendCommand
is parsable, it contains aVec
which is parsable and in repeatedly parsesString
s that are parsable. Note howcmdparse
recognized that the list of email addresses finished when it encountered the attribute that neitherString
norVec
recognizes.
cmdparse
can generate completion suggestions:
use cmdparse::complete;
use std::collections::BTreeSet;
let suggestions = complete::<_, MailSendCommand>("\"Hello, world\" --", ());
assert_eq!(suggestions, BTreeSet::from(["to".into(), "subject".into()]));
It also supports parsing enums. In case of enum, it expects a discriminator (automatically
converted into kebab-case by the Parsable
derive macro):
use cmdparse::{parse, Parsable};
#[derive(Debug, PartialEq, Eq, Parsable)]
enum Priority {
High,
Medium,
Low,
}
impl Default for Priority {
fn default() -> Self {
Priority::Medium
}
}
#[derive(Debug, PartialEq, Eq, Parsable)]
enum Command {
AddTask(String, #[cmd(attr(priority))] Priority),
Remove(usize),
}
assert_eq!(
parse::<_, Command>("add-task parse-all-commands", ())?,
Command::AddTask("parse-all-commands".to_string(), Priority::Medium),
);
assert_eq!(
parse::<_, Command>("add-task enjoy-your-day --priority high", ())?,
Command::AddTask("enjoy-your-day".to_string(), Priority::High),
);
assert_eq!(parse::<_, Command>("remove 1", ())?, Command::Remove(1));
The syntax that cmdparse
supports is fairly minimal. The parsing machinery sees the input as
a sequence of tokens. Token is any sequence of characters separated by whitespaces. If you wish
to include a whitespace in the token, you may enclose any substring of the input into a pair of
quotation marks (either double or singular); cmdparse
supports escaping these symbols
inside quoted tokens with a slash (\
).
Input can contain a comment beginning with an octothorp (#
). Octothorps within quoted tokens
are not considered beginning a comment.
The meaning of the token and attributes are highly specific to each parser. Generally, each parser consumes tokens sequentially until each required field’s value is filled. It also handles attributes in any order and at arbitrary positions.
Due to the nature of the commands' syntax, parsing can seem ambiguous. For example,
cmdparse
can parse nested structs such as Vec<Vec<u32>>
. It may be confusing to the end
user, how would a sequence of numbers be interpreted (they all will be put in the only item of
the outer vector). It is best to design your command to be simple and avoid highly nested
structures for the better user experience. In some cases, complexity is unavoidable. In such
situations, users may find useful an ability to group tokens, belonging to the same data
structure, with parenthesis: (
and )
. This way, users can express a value vec![vec![1, 2], vec![3, 4, 5]]
as (1 2) (3 4 5)
.
More details about how the tokenization and the parsing algorithm are documented in the
tokens
module’s and Parser
trait’s documentation.
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.