use std::fmt; use crate::{lowercase, transform}; /// This trait defines a kebab case conversion. /// /// In kebab-case, word boundaries are indicated by hyphens. /// /// ## Example: /// /// ```rust /// use heck::ToKebabCase; /// /// let sentence = "We are going to inherit the earth."; /// assert_eq!(sentence.to_kebab_case(), "we-are-going-to-inherit-the-earth"); /// ``` pub trait ToKebabCase: ToOwned { /// Convert this type to kebab case. fn to_kebab_case(&self) -> Self::Owned; } impl ToKebabCase for str { fn to_kebab_case(&self) -> Self::Owned { AsKebabCase(self).to_string() } } /// This wrapper performs a kebab case conversion in [`fmt::Display`]. /// /// ## Example: /// /// ``` /// use heck::AsKebabCase; /// /// let sentence = "We are going to inherit the earth."; /// assert_eq!(format!("{}", AsKebabCase(sentence)), "we-are-going-to-inherit-the-earth"); /// ``` pub struct AsKebabCase>(pub T); impl> fmt::Display for AsKebabCase { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { transform(self.0.as_ref(), lowercase, |f| write!(f, "-"), f) } } #[cfg(test)] mod tests { use super::ToKebabCase; macro_rules! t { ($t:ident : $s1:expr => $s2:expr) => { #[test] fn $t() { assert_eq!($s1.to_kebab_case(), $s2) } }; } t!(test1: "CamelCase" => "camel-case"); t!(test2: "This is Human case." => "this-is-human-case"); t!(test3: "MixedUP CamelCase, with some Spaces" => "mixed-up-camel-case-with-some-spaces"); t!(test4: "mixed_up_ snake_case with some _spaces" => "mixed-up-snake-case-with-some-spaces"); t!(test5: "kebab-case" => "kebab-case"); t!(test6: "SHOUTY_SNAKE_CASE" => "shouty-snake-case"); t!(test7: "snake_case" => "snake-case"); t!(test8: "this-contains_ ALLKinds OfWord_Boundaries" => "this-contains-all-kinds-of-word-boundaries"); #[cfg(feature = "unicode")] t!(test9: "XΣXΣ baffle" => "xσxς-baffle"); t!(test10: "XMLHttpRequest" => "xml-http-request"); }