//! **heck** is a case conversion library. //! //! This library exists to provide case conversion between common cases like //! CamelCase and snake_case. It is intended to be unicode aware, internally, //! consistent, and reasonably well performing. //! //! ## Definition of a word boundary //! //! Word boundaries are defined as the "unicode words" defined in the //! `unicode_segmentation` library, as well as within those words in this //! manner: //! //! 1. All underscore characters are considered word boundaries. //! 2. If an uppercase character is followed by lowercase letters, a word //! boundary is considered to be just prior to that uppercase character. //! 3. If multiple uppercase characters are consecutive, they are considered to //! be within a single word, except that the last will be part of the next word //! if it is followed by lowercase characters (see rule 2). //! //! That is, "HelloWorld" is segmented `Hello|World` whereas "XMLHttpRequest" is //! segmented `XML|Http|Request`. //! //! Characters not within words (such as spaces, punctuations, and underscores) //! are not included in the output string except as they are a part of the case //! being converted to. Multiple adjacent word boundaries (such as a series of //! underscores) are folded into one. ("hello__world" in snake case is therefore //! "hello_world", not the exact same string). Leading or trailing word boundary //! indicators are dropped, except insofar as CamelCase capitalizes the first //! word. //! //! ### Cases contained in this library: //! //! 1. CamelCase //! 2. snake_case //! 3. kebab-case //! 4. SHOUTY_SNAKE_CASE //! 5. mixedCase //! 6. Title Case //! 7. SHOUTY-KEBAB-CASE #![deny(missing_docs)] mod camel; mod kebab; mod mixed; mod shouty_kebab; mod shouty_snake; mod snake; mod title; pub use camel::CamelCase; pub use kebab::KebabCase; pub use mixed::MixedCase; pub use shouty_kebab::ShoutyKebabCase; pub use shouty_snake::{ShoutySnakeCase, ShoutySnekCase}; pub use snake::{SnakeCase, SnekCase}; pub use title::TitleCase; use unicode_segmentation::UnicodeSegmentation; fn transform(s: &str, with_word: F, boundary: G) -> String where F: Fn(&str, &mut String), G: Fn(&mut String), { /// Tracks the current 'mode' of the transformation algorithm as it scans /// the input string. /// /// The mode is a tri-state which tracks the case of the last cased /// character of the current word. If there is no cased character /// (either lowercase or uppercase) since the previous word boundary, /// than the mode is `Boundary`. If the last cased character is lowercase, /// then the mode is `Lowercase`. Othertherwise, the mode is /// `Uppercase`. #[derive(Clone, Copy, PartialEq)] enum WordMode { /// There have been no lowercase or uppercase characters in the current /// word. Boundary, /// The previous cased character in the current word is lowercase. Lowercase, /// The previous cased character in the current word is uppercase. Uppercase, } let mut out = String::new(); let mut first_word = true; for word in s.unicode_words() { let mut char_indices = word.char_indices().peekable(); let mut init = 0; let mut mode = WordMode::Boundary; while let Some((i, c)) = char_indices.next() { // Skip underscore characters if c == '_' { if init == i { init += 1; } continue; } if let Some(&(next_i, next)) = char_indices.peek() { // The mode including the current character, assuming the // current character does not result in a word boundary. let next_mode = if c.is_lowercase() { WordMode::Lowercase } else if c.is_uppercase() { WordMode::Uppercase } else { mode }; // Word boundary after if next is underscore or current is // not uppercase and next is uppercase if next == '_' || (next_mode == WordMode::Lowercase && next.is_uppercase()) { if !first_word { boundary(&mut out); } with_word(&word[init..next_i], &mut out); first_word = false; init = next_i; mode = WordMode::Boundary; // Otherwise if current and previous are uppercase and next // is lowercase, word boundary before } else if mode == WordMode::Uppercase && c.is_uppercase() && next.is_lowercase() { if !first_word { boundary(&mut out); } else { first_word = false; } with_word(&word[init..i], &mut out); init = i; mode = WordMode::Boundary; // Otherwise no word boundary, just update the mode } else { mode = next_mode; } } else { // Collect trailing characters as a word if !first_word { boundary(&mut out); } else { first_word = false; } with_word(&word[init..], &mut out); break; } } } out } fn lowercase(s: &str, out: &mut String) { let mut chars = s.chars().peekable(); while let Some(c) = chars.next() { if c == 'Σ' && chars.peek().is_none() { out.push('ς'); } else { out.extend(c.to_lowercase()); } } } fn uppercase(s: &str, out: &mut String) { for c in s.chars() { out.extend(c.to_uppercase()) } } fn capitalize(s: &str, out: &mut String) { let mut char_indices = s.char_indices(); if let Some((_, c)) = char_indices.next() { out.extend(c.to_uppercase()); if let Some((i, _)) = char_indices.next() { lowercase(&s[i..], out); } } }