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diff --git a/vendor/textwrap/src/lib.rs b/vendor/textwrap/src/lib.rs new file mode 100644 index 0000000..e570eac --- /dev/null +++ b/vendor/textwrap/src/lib.rs @@ -0,0 +1,1847 @@ +//! The textwrap library provides functions for word wrapping and +//! indenting text. +//! +//! # Wrapping Text +//! +//! Wrapping text can be very useful in command-line programs where +//! you want to format dynamic output nicely so it looks good in a +//! terminal. A quick example: +//! +//! ``` +//! # #[cfg(feature = "smawk")] { +//! let text = "textwrap: a small library for wrapping text."; +//! assert_eq!(textwrap::wrap(text, 18), +//! vec!["textwrap: a", +//! "small library for", +//! "wrapping text."]); +//! # } +//! ``` +//! +//! The [`wrap`] function returns the individual lines, use [`fill`] +//! is you want the lines joined with `'\n'` to form a `String`. +//! +//! If you enable the `hyphenation` Cargo feature, you can get +//! automatic hyphenation for a number of languages: +//! +//! ``` +//! #[cfg(feature = "hyphenation")] { +//! use hyphenation::{Language, Load, Standard}; +//! use textwrap::{wrap, Options, WordSplitter}; +//! +//! let text = "textwrap: a small library for wrapping text."; +//! let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); +//! let options = Options::new(18).word_splitter(WordSplitter::Hyphenation(dictionary)); +//! assert_eq!(wrap(text, &options), +//! vec!["textwrap: a small", +//! "library for wrap-", +//! "ping text."]); +//! } +//! ``` +//! +//! See also the [`unfill`] and [`refill`] functions which allow you to +//! manipulate already wrapped text. +//! +//! ## Wrapping Strings at Compile Time +//! +//! If your strings are known at compile time, please take a look at +//! the procedural macros from the [textwrap-macros] crate. +//! +//! ## Displayed Width vs Byte Size +//! +//! To word wrap text, one must know the width of each word so one can +//! know when to break lines. This library will by default measure the +//! width of text using the _displayed width_, not the size in bytes. +//! The `unicode-width` Cargo feature controls this. +//! +//! This is important for non-ASCII text. ASCII characters such as `a` +//! and `!` are simple and take up one column each. This means that +//! the displayed width is equal to the string length in bytes. +//! However, non-ASCII characters and symbols take up more than one +//! byte when UTF-8 encoded: `é` is `0xc3 0xa9` (two bytes) and `⚙` is +//! `0xe2 0x9a 0x99` (three bytes) in UTF-8, respectively. +//! +//! This is why we take care to use the displayed width instead of the +//! byte count when computing line lengths. All functions in this +//! library handle Unicode characters like this when the +//! `unicode-width` Cargo feature is enabled (it is enabled by +//! default). +//! +//! # Indentation and Dedentation +//! +//! The textwrap library also offers functions for adding a prefix to +//! every line of a string and to remove leading whitespace. As an +//! example, the [`indent`] function allows you to turn lines of text +//! into a bullet list: +//! +//! ``` +//! let before = "\ +//! foo +//! bar +//! baz +//! "; +//! let after = "\ +//! * foo +//! * bar +//! * baz +//! "; +//! assert_eq!(textwrap::indent(before, "* "), after); +//! ``` +//! +//! Removing leading whitespace is done with [`dedent`]: +//! +//! ``` +//! let before = " +//! Some +//! indented +//! text +//! "; +//! let after = " +//! Some +//! indented +//! text +//! "; +//! assert_eq!(textwrap::dedent(before), after); +//! ``` +//! +//! # Cargo Features +//! +//! The textwrap library can be slimmed down as needed via a number of +//! Cargo features. This means you only pay for the features you +//! actually use. +//! +//! The full dependency graph, where dashed lines indicate optional +//! dependencies, is shown below: +//! +//! <img src="https://raw.githubusercontent.com/mgeisler/textwrap/master/images/textwrap-0.15.2.svg"> +//! +//! ## Default Features +//! +//! These features are enabled by default: +//! +//! * `unicode-linebreak`: enables finding words using the +//! [unicode-linebreak] crate, which implements the line breaking +//! algorithm described in [Unicode Standard Annex +//! #14](https://www.unicode.org/reports/tr14/). +//! +//! This feature can be disabled if you are happy to find words +//! separated by ASCII space characters only. People wrapping text +//! with emojis or East-Asian characters will want most likely want +//! to enable this feature. See [`WordSeparator`] for details. +//! +//! * `unicode-width`: enables correct width computation of non-ASCII +//! characters via the [unicode-width] crate. Without this feature, +//! every [`char`] is 1 column wide, except for emojis which are 2 +//! columns wide. See the [`core::display_width`] function for +//! details. +//! +//! This feature can be disabled if you only need to wrap ASCII +//! text, or if the functions in [`core`] are used directly with +//! [`core::Fragment`]s for which the widths have been computed in +//! other ways. +//! +//! * `smawk`: enables linear-time wrapping of the whole paragraph via +//! the [smawk] crate. See the [`wrap_algorithms::wrap_optimal_fit`] +//! function for details on the optimal-fit algorithm. +//! +//! This feature can be disabled if you only ever intend to use +//! [`wrap_algorithms::wrap_first_fit`]. +//! +//! With Rust 1.59.0, the size impact of the above features on your +//! binary is as follows: +//! +//! | Configuration | Binary Size | Delta | +//! | :--- | ---: | ---: | +//! | quick-and-dirty implementation | 289 KB | — KB | +//! | textwrap without default features | 301 KB | 12 KB | +//! | textwrap with smawk | 317 KB | 28 KB | +//! | textwrap with unicode-width | 313 KB | 24 KB | +//! | textwrap with unicode-linebreak | 395 KB | 106 KB | +//! +//! The above sizes are the stripped sizes and the binary is compiled +//! in release mode with this profile: +//! +//! ```toml +//! [profile.release] +//! lto = true +//! codegen-units = 1 +//! ``` +//! +//! See the [binary-sizes demo] if you want to reproduce these +//! results. +//! +//! ## Optional Features +//! +//! These Cargo features enable new functionality: +//! +//! * `terminal_size`: enables automatic detection of the terminal +//! width via the [terminal_size] crate. See the +//! [`Options::with_termwidth`] constructor for details. +//! +//! * `hyphenation`: enables language-sensitive hyphenation via the +//! [hyphenation] crate. See the [`word_splitters::WordSplitter`] +//! trait for details. +//! +//! [unicode-linebreak]: https://docs.rs/unicode-linebreak/ +//! [unicode-width]: https://docs.rs/unicode-width/ +//! [smawk]: https://docs.rs/smawk/ +//! [binary-sizes demo]: https://github.com/mgeisler/textwrap/tree/master/examples/binary-sizes +//! [textwrap-macros]: https://docs.rs/textwrap-macros/ +//! [terminal_size]: https://docs.rs/terminal_size/ +//! [hyphenation]: https://docs.rs/hyphenation/ + +#![doc(html_root_url = "https://docs.rs/textwrap/0.15.2")] +#![forbid(unsafe_code)] // See https://github.com/mgeisler/textwrap/issues/210 +#![deny(missing_docs)] +#![deny(missing_debug_implementations)] +#![allow(clippy::redundant_field_names)] + +// Make `cargo test` execute the README doctests. +#[cfg(doctest)] +#[doc = include_str!("../README.md")] +mod readme_doctest {} + +use std::borrow::Cow; + +mod indentation; +pub use crate::indentation::{dedent, indent}; + +mod word_separators; +pub use word_separators::WordSeparator; + +pub mod word_splitters; +pub use word_splitters::WordSplitter; + +pub mod wrap_algorithms; +pub use wrap_algorithms::WrapAlgorithm; + +pub mod core; + +#[cfg(feature = "unicode-linebreak")] +macro_rules! DefaultWordSeparator { + () => { + WordSeparator::UnicodeBreakProperties + }; +} + +#[cfg(not(feature = "unicode-linebreak"))] +macro_rules! DefaultWordSeparator { + () => { + WordSeparator::AsciiSpace + }; +} + +/// Holds configuration options for wrapping and filling text. +#[derive(Debug, Clone)] +pub struct Options<'a> { + /// The width in columns at which the text will be wrapped. + pub width: usize, + /// Indentation used for the first line of output. See the + /// [`Options::initial_indent`] method. + pub initial_indent: &'a str, + /// Indentation used for subsequent lines of output. See the + /// [`Options::subsequent_indent`] method. + pub subsequent_indent: &'a str, + /// Allow long words to be broken if they cannot fit on a line. + /// When set to `false`, some lines may be longer than + /// `self.width`. See the [`Options::break_words`] method. + pub break_words: bool, + /// Wrapping algorithm to use, see the implementations of the + /// [`wrap_algorithms::WrapAlgorithm`] trait for details. + pub wrap_algorithm: WrapAlgorithm, + /// The line breaking algorithm to use, see + /// [`word_separators::WordSeparator`] trait for an overview and + /// possible implementations. + pub word_separator: WordSeparator, + /// The method for splitting words. This can be used to prohibit + /// splitting words on hyphens, or it can be used to implement + /// language-aware machine hyphenation. + pub word_splitter: WordSplitter, +} + +impl<'a> From<&'a Options<'a>> for Options<'a> { + fn from(options: &'a Options<'a>) -> Self { + Self { + width: options.width, + initial_indent: options.initial_indent, + subsequent_indent: options.subsequent_indent, + break_words: options.break_words, + word_separator: options.word_separator, + wrap_algorithm: options.wrap_algorithm, + word_splitter: options.word_splitter.clone(), + } + } +} + +impl<'a> From<usize> for Options<'a> { + fn from(width: usize) -> Self { + Options::new(width) + } +} + +impl<'a> Options<'a> { + /// Creates a new [`Options`] with the specified width. Equivalent to + /// + /// ``` + /// # use textwrap::{Options, WordSplitter, WordSeparator, WrapAlgorithm}; + /// # let width = 80; + /// # let actual = Options::new(width); + /// # let expected = + /// Options { + /// width: width, + /// initial_indent: "", + /// subsequent_indent: "", + /// break_words: true, + /// #[cfg(feature = "unicode-linebreak")] + /// word_separator: WordSeparator::UnicodeBreakProperties, + /// #[cfg(not(feature = "unicode-linebreak"))] + /// word_separator: WordSeparator::AsciiSpace, + /// #[cfg(feature = "smawk")] + /// wrap_algorithm: WrapAlgorithm::new_optimal_fit(), + /// #[cfg(not(feature = "smawk"))] + /// wrap_algorithm: WrapAlgorithm::FirstFit, + /// word_splitter: WordSplitter::HyphenSplitter, + /// } + /// # ; + /// # assert_eq!(actual.width, expected.width); + /// # assert_eq!(actual.initial_indent, expected.initial_indent); + /// # assert_eq!(actual.subsequent_indent, expected.subsequent_indent); + /// # assert_eq!(actual.break_words, expected.break_words); + /// # assert_eq!(actual.word_splitter, expected.word_splitter); + /// ``` + /// + /// Note that the default word separator and wrap algorithms + /// changes based on the available Cargo features. The best + /// available algorithms are used by default. + pub const fn new(width: usize) -> Self { + Options { + width, + initial_indent: "", + subsequent_indent: "", + break_words: true, + word_separator: DefaultWordSeparator!(), + wrap_algorithm: WrapAlgorithm::new(), + word_splitter: WordSplitter::HyphenSplitter, + } + } + + /// Creates a new [`Options`] with `width` set to the current + /// terminal width. If the terminal width cannot be determined + /// (typically because the standard input and output is not + /// connected to a terminal), a width of 80 characters will be + /// used. Other settings use the same defaults as + /// [`Options::new`]. + /// + /// Equivalent to: + /// + /// ```no_run + /// use textwrap::{termwidth, Options}; + /// + /// let options = Options::new(termwidth()); + /// ``` + /// + /// **Note:** Only available when the `terminal_size` feature is + /// enabled. + #[cfg(feature = "terminal_size")] + pub fn with_termwidth() -> Self { + Self::new(termwidth()) + } +} + +impl<'a> Options<'a> { + /// Change [`self.initial_indent`]. The initial indentation is + /// used on the very first line of output. + /// + /// # Examples + /// + /// Classic paragraph indentation can be achieved by specifying an + /// initial indentation and wrapping each paragraph by itself: + /// + /// ``` + /// use textwrap::{wrap, Options}; + /// + /// let options = Options::new(16).initial_indent(" "); + /// assert_eq!(wrap("This is a little example.", options), + /// vec![" This is a", + /// "little example."]); + /// ``` + /// + /// [`self.initial_indent`]: #structfield.initial_indent + pub fn initial_indent(self, indent: &'a str) -> Self { + Options { + initial_indent: indent, + ..self + } + } + + /// Change [`self.subsequent_indent`]. The subsequent indentation + /// is used on lines following the first line of output. + /// + /// # Examples + /// + /// Combining initial and subsequent indentation lets you format a + /// single paragraph as a bullet list: + /// + /// ``` + /// use textwrap::{wrap, Options}; + /// + /// let options = Options::new(12) + /// .initial_indent("* ") + /// .subsequent_indent(" "); + /// #[cfg(feature = "smawk")] + /// assert_eq!(wrap("This is a little example.", options), + /// vec!["* This is", + /// " a little", + /// " example."]); + /// + /// // Without the `smawk` feature, the wrapping is a little different: + /// #[cfg(not(feature = "smawk"))] + /// assert_eq!(wrap("This is a little example.", options), + /// vec!["* This is a", + /// " little", + /// " example."]); + /// ``` + /// + /// [`self.subsequent_indent`]: #structfield.subsequent_indent + pub fn subsequent_indent(self, indent: &'a str) -> Self { + Options { + subsequent_indent: indent, + ..self + } + } + + /// Change [`self.break_words`]. This controls if words longer + /// than `self.width` can be broken, or if they will be left + /// sticking out into the right margin. + /// + /// # Examples + /// + /// ``` + /// use textwrap::{wrap, Options}; + /// + /// let options = Options::new(4).break_words(true); + /// assert_eq!(wrap("This is a little example.", options), + /// vec!["This", + /// "is a", + /// "litt", + /// "le", + /// "exam", + /// "ple."]); + /// ``` + /// + /// [`self.break_words`]: #structfield.break_words + pub fn break_words(self, setting: bool) -> Self { + Options { + break_words: setting, + ..self + } + } + + /// Change [`self.word_separator`]. + /// + /// See [`word_separators::WordSeparator`] for details on the choices. + /// + /// [`self.word_separator`]: #structfield.word_separator + pub fn word_separator(self, word_separator: WordSeparator) -> Options<'a> { + Options { + width: self.width, + initial_indent: self.initial_indent, + subsequent_indent: self.subsequent_indent, + break_words: self.break_words, + word_separator: word_separator, + wrap_algorithm: self.wrap_algorithm, + word_splitter: self.word_splitter, + } + } + + /// Change [`self.wrap_algorithm`]. + /// + /// See the [`wrap_algorithms::WrapAlgorithm`] trait for details on + /// the choices. + /// + /// [`self.wrap_algorithm`]: #structfield.wrap_algorithm + pub fn wrap_algorithm(self, wrap_algorithm: WrapAlgorithm) -> Options<'a> { + Options { + width: self.width, + initial_indent: self.initial_indent, + subsequent_indent: self.subsequent_indent, + break_words: self.break_words, + word_separator: self.word_separator, + wrap_algorithm: wrap_algorithm, + word_splitter: self.word_splitter, + } + } + + /// Change [`self.word_splitter`]. The + /// [`word_splitters::WordSplitter`] is used to fit part of a word + /// into the current line when wrapping text. + /// + /// # Examples + /// + /// ``` + /// use textwrap::{Options, WordSplitter}; + /// let opt = Options::new(80); + /// assert_eq!(opt.word_splitter, WordSplitter::HyphenSplitter); + /// let opt = opt.word_splitter(WordSplitter::NoHyphenation); + /// assert_eq!(opt.word_splitter, WordSplitter::NoHyphenation); + /// ``` + /// + /// [`self.word_splitter`]: #structfield.word_splitter + pub fn word_splitter(self, word_splitter: WordSplitter) -> Options<'a> { + Options { + width: self.width, + initial_indent: self.initial_indent, + subsequent_indent: self.subsequent_indent, + break_words: self.break_words, + word_separator: self.word_separator, + wrap_algorithm: self.wrap_algorithm, + word_splitter, + } + } +} + +/// Return the current terminal width. +/// +/// If the terminal width cannot be determined (typically because the +/// standard output is not connected to a terminal), a default width +/// of 80 characters will be used. +/// +/// # Examples +/// +/// Create an [`Options`] for wrapping at the current terminal width +/// with a two column margin to the left and the right: +/// +/// ```no_run +/// use textwrap::{termwidth, Options}; +/// +/// let width = termwidth() - 4; // Two columns on each side. +/// let options = Options::new(width) +/// .initial_indent(" ") +/// .subsequent_indent(" "); +/// ``` +/// +/// **Note:** Only available when the `terminal_size` Cargo feature is +/// enabled. +#[cfg(feature = "terminal_size")] +pub fn termwidth() -> usize { + terminal_size::terminal_size().map_or(80, |(terminal_size::Width(w), _)| w.into()) +} + +/// Fill a line of text at a given width. +/// +/// The result is a [`String`], complete with newlines between each +/// line. Use the [`wrap`] function if you need access to the +/// individual lines. +/// +/// The easiest way to use this function is to pass an integer for +/// `width_or_options`: +/// +/// ``` +/// use textwrap::fill; +/// +/// assert_eq!( +/// fill("Memory safety without garbage collection.", 15), +/// "Memory safety\nwithout garbage\ncollection." +/// ); +/// ``` +/// +/// If you need to customize the wrapping, you can pass an [`Options`] +/// instead of an `usize`: +/// +/// ``` +/// use textwrap::{fill, Options}; +/// +/// let options = Options::new(15) +/// .initial_indent("- ") +/// .subsequent_indent(" "); +/// assert_eq!( +/// fill("Memory safety without garbage collection.", &options), +/// "- Memory safety\n without\n garbage\n collection." +/// ); +/// ``` +pub fn fill<'a, Opt>(text: &str, width_or_options: Opt) -> String +where + Opt: Into<Options<'a>>, +{ + // This will avoid reallocation in simple cases (no + // indentation, no hyphenation). + let mut result = String::with_capacity(text.len()); + + for (i, line) in wrap(text, width_or_options).iter().enumerate() { + if i > 0 { + result.push('\n'); + } + result.push_str(line); + } + + result +} + +/// Unpack a paragraph of already-wrapped text. +/// +/// This function attempts to recover the original text from a single +/// paragraph of text produced by the [`fill`] function. This means +/// that it turns +/// +/// ```text +/// textwrap: a small +/// library for +/// wrapping text. +/// ``` +/// +/// back into +/// +/// ```text +/// textwrap: a small library for wrapping text. +/// ``` +/// +/// In addition, it will recognize a common prefix among the lines. +/// The prefix of the first line is returned in +/// [`Options::initial_indent`] and the prefix (if any) of the the +/// other lines is returned in [`Options::subsequent_indent`]. +/// +/// In addition to `' '`, the prefixes can consist of characters used +/// for unordered lists (`'-'`, `'+'`, and `'*'`) and block quotes +/// (`'>'`) in Markdown as well as characters often used for inline +/// comments (`'#'` and `'/'`). +/// +/// The text must come from a single wrapped paragraph. This means +/// that there can be no `"\n\n"` within the text. +/// +/// # Examples +/// +/// ``` +/// use textwrap::unfill; +/// +/// let (text, options) = unfill("\ +/// * This is an +/// example of +/// a list item. +/// "); +/// +/// assert_eq!(text, "This is an example of a list item.\n"); +/// assert_eq!(options.initial_indent, "* "); +/// assert_eq!(options.subsequent_indent, " "); +/// ``` +pub fn unfill(text: &str) -> (String, Options<'_>) { + let trimmed = text.trim_end_matches('\n'); + let prefix_chars: &[_] = &[' ', '-', '+', '*', '>', '#', '/']; + + let mut options = Options::new(0); + for (idx, line) in trimmed.split('\n').enumerate() { + options.width = std::cmp::max(options.width, core::display_width(line)); + let without_prefix = line.trim_start_matches(prefix_chars); + let prefix = &line[..line.len() - without_prefix.len()]; + + if idx == 0 { + options.initial_indent = prefix; + } else if idx == 1 { + options.subsequent_indent = prefix; + } else if idx > 1 { + for ((idx, x), y) in prefix.char_indices().zip(options.subsequent_indent.chars()) { + if x != y { + options.subsequent_indent = &prefix[..idx]; + break; + } + } + if prefix.len() < options.subsequent_indent.len() { + options.subsequent_indent = prefix; + } + } + } + + let mut unfilled = String::with_capacity(text.len()); + for (idx, line) in trimmed.split('\n').enumerate() { + if idx == 0 { + unfilled.push_str(&line[options.initial_indent.len()..]); + } else { + unfilled.push(' '); + unfilled.push_str(&line[options.subsequent_indent.len()..]); + } + } + + unfilled.push_str(&text[trimmed.len()..]); + (unfilled, options) +} + +/// Refill a paragraph of wrapped text with a new width. +/// +/// This function will first use the [`unfill`] function to remove +/// newlines from the text. Afterwards the text is filled again using +/// the [`fill`] function. +/// +/// The `new_width_or_options` argument specify the new width and can +/// specify other options as well — except for +/// [`Options::initial_indent`] and [`Options::subsequent_indent`], +/// which are deduced from `filled_text`. +/// +/// # Examples +/// +/// ``` +/// use textwrap::refill; +/// +/// // Some loosely wrapped text. The "> " prefix is recognized automatically. +/// let text = "\ +/// > Memory +/// > safety without garbage +/// > collection. +/// "; +/// +/// assert_eq!(refill(text, 20), "\ +/// > Memory safety +/// > without garbage +/// > collection. +/// "); +/// +/// assert_eq!(refill(text, 40), "\ +/// > Memory safety without garbage +/// > collection. +/// "); +/// +/// assert_eq!(refill(text, 60), "\ +/// > Memory safety without garbage collection. +/// "); +/// ``` +/// +/// You can also reshape bullet points: +/// +/// ``` +/// use textwrap::refill; +/// +/// let text = "\ +/// - This is my +/// list item. +/// "; +/// +/// assert_eq!(refill(text, 20), "\ +/// - This is my list +/// item. +/// "); +/// ``` +pub fn refill<'a, Opt>(filled_text: &str, new_width_or_options: Opt) -> String +where + Opt: Into<Options<'a>>, +{ + let trimmed = filled_text.trim_end_matches('\n'); + let (text, options) = unfill(trimmed); + let mut new_options = new_width_or_options.into(); + new_options.initial_indent = options.initial_indent; + new_options.subsequent_indent = options.subsequent_indent; + let mut refilled = fill(&text, new_options); + refilled.push_str(&filled_text[trimmed.len()..]); + refilled +} + +/// Wrap a line of text at a given width. +/// +/// The result is a vector of lines, each line is of type [`Cow<'_, +/// str>`](Cow), which means that the line will borrow from the input +/// `&str` if possible. The lines do not have trailing whitespace, +/// including a final `'\n'`. Please use the [`fill`] function if you +/// need a [`String`] instead. +/// +/// The easiest way to use this function is to pass an integer for +/// `width_or_options`: +/// +/// ``` +/// use textwrap::wrap; +/// +/// let lines = wrap("Memory safety without garbage collection.", 15); +/// assert_eq!(lines, &[ +/// "Memory safety", +/// "without garbage", +/// "collection.", +/// ]); +/// ``` +/// +/// If you need to customize the wrapping, you can pass an [`Options`] +/// instead of an `usize`: +/// +/// ``` +/// use textwrap::{wrap, Options}; +/// +/// let options = Options::new(15) +/// .initial_indent("- ") +/// .subsequent_indent(" "); +/// let lines = wrap("Memory safety without garbage collection.", &options); +/// assert_eq!(lines, &[ +/// "- Memory safety", +/// " without", +/// " garbage", +/// " collection.", +/// ]); +/// ``` +/// +/// # Optimal-Fit Wrapping +/// +/// By default, `wrap` will try to ensure an even right margin by +/// finding breaks which avoid short lines. We call this an +/// “optimal-fit algorithm” since the line breaks are computed by +/// considering all possible line breaks. The alternative is a +/// “first-fit algorithm” which simply accumulates words until they no +/// longer fit on the line. +/// +/// As an example, using the first-fit algorithm to wrap the famous +/// Hamlet quote “To be, or not to be: that is the question” in a +/// narrow column with room for only 10 characters looks like this: +/// +/// ``` +/// # use textwrap::{WrapAlgorithm::FirstFit, Options, wrap}; +/// # +/// # let lines = wrap("To be, or not to be: that is the question", +/// # Options::new(10).wrap_algorithm(FirstFit)); +/// # assert_eq!(lines.join("\n") + "\n", "\ +/// To be, or +/// not to be: +/// that is +/// the +/// question +/// # "); +/// ``` +/// +/// Notice how the second to last line is quite narrow because +/// “question” was too large to fit? The greedy first-fit algorithm +/// doesn’t look ahead, so it has no other option than to put +/// “question” onto its own line. +/// +/// With the optimal-fit wrapping algorithm, the previous lines are +/// shortened slightly in order to make the word “is” go into the +/// second last line: +/// +/// ``` +/// # #[cfg(feature = "smawk")] { +/// # use textwrap::{Options, WrapAlgorithm, wrap}; +/// # +/// # let lines = wrap( +/// # "To be, or not to be: that is the question", +/// # Options::new(10).wrap_algorithm(WrapAlgorithm::new_optimal_fit()) +/// # ); +/// # assert_eq!(lines.join("\n") + "\n", "\ +/// To be, +/// or not to +/// be: that +/// is the +/// question +/// # "); } +/// ``` +/// +/// Please see [`WrapAlgorithm`] for details on the choices. +/// +/// # Examples +/// +/// The returned iterator yields lines of type `Cow<'_, str>`. If +/// possible, the wrapped lines will borrow from the input string. As +/// an example, a hanging indentation, the first line can borrow from +/// the input, but the subsequent lines become owned strings: +/// +/// ``` +/// use std::borrow::Cow::{Borrowed, Owned}; +/// use textwrap::{wrap, Options}; +/// +/// let options = Options::new(15).subsequent_indent("...."); +/// let lines = wrap("Wrapping text all day long.", &options); +/// let annotated = lines +/// .iter() +/// .map(|line| match line { +/// Borrowed(text) => format!("[Borrowed] {}", text), +/// Owned(text) => format!("[Owned] {}", text), +/// }) +/// .collect::<Vec<_>>(); +/// assert_eq!( +/// annotated, +/// &[ +/// "[Borrowed] Wrapping text", +/// "[Owned] ....all day", +/// "[Owned] ....long.", +/// ] +/// ); +/// ``` +/// +/// ## Leading and Trailing Whitespace +/// +/// As a rule, leading whitespace (indentation) is preserved and +/// trailing whitespace is discarded. +/// +/// In more details, when wrapping words into lines, words are found +/// by splitting the input text on space characters. One or more +/// spaces (shown here as “␣”) are attached to the end of each word: +/// +/// ```text +/// "Foo␣␣␣bar␣baz" -> ["Foo␣␣␣", "bar␣", "baz"] +/// ``` +/// +/// These words are then put into lines. The interword whitespace is +/// preserved, unless the lines are wrapped so that the `"Foo␣␣␣"` +/// word falls at the end of a line: +/// +/// ``` +/// use textwrap::wrap; +/// +/// assert_eq!(wrap("Foo bar baz", 10), vec!["Foo bar", "baz"]); +/// assert_eq!(wrap("Foo bar baz", 8), vec!["Foo", "bar baz"]); +/// ``` +/// +/// Notice how the trailing whitespace is removed in both case: in the +/// first example, `"bar␣"` becomes `"bar"` and in the second case +/// `"Foo␣␣␣"` becomes `"Foo"`. +/// +/// Leading whitespace is preserved when the following word fits on +/// the first line. To understand this, consider how words are found +/// in a text with leading spaces: +/// +/// ```text +/// "␣␣foo␣bar" -> ["␣␣", "foo␣", "bar"] +/// ``` +/// +/// When put into lines, the indentation is preserved if `"foo"` fits +/// on the first line, otherwise you end up with an empty line: +/// +/// ``` +/// use textwrap::wrap; +/// +/// assert_eq!(wrap(" foo bar", 8), vec![" foo", "bar"]); +/// assert_eq!(wrap(" foo bar", 4), vec!["", "foo", "bar"]); +/// ``` +pub fn wrap<'a, Opt>(text: &str, width_or_options: Opt) -> Vec<Cow<'_, str>> +where + Opt: Into<Options<'a>>, +{ + let options = width_or_options.into(); + + let initial_width = options + .width + .saturating_sub(core::display_width(options.initial_indent)); + let subsequent_width = options + .width + .saturating_sub(core::display_width(options.subsequent_indent)); + + let mut lines = Vec::new(); + for line in text.split('\n') { + let words = options.word_separator.find_words(line); + let split_words = word_splitters::split_words(words, &options.word_splitter); + let broken_words = if options.break_words { + let mut broken_words = core::break_words(split_words, subsequent_width); + if !options.initial_indent.is_empty() { + // Without this, the first word will always go into + // the first line. However, since we break words based + // on the _second_ line width, it can be wrong to + // unconditionally put the first word onto the first + // line. An empty zero-width word fixed this. + broken_words.insert(0, core::Word::from("")); + } + broken_words + } else { + split_words.collect::<Vec<_>>() + }; + + let line_widths = [initial_width, subsequent_width]; + let wrapped_words = options.wrap_algorithm.wrap(&broken_words, &line_widths); + + let mut idx = 0; + for words in wrapped_words { + let last_word = match words.last() { + None => { + lines.push(Cow::from("")); + continue; + } + Some(word) => word, + }; + + // We assume here that all words are contiguous in `line`. + // That is, the sum of their lengths should add up to the + // length of `line`. + let len = words + .iter() + .map(|word| word.len() + word.whitespace.len()) + .sum::<usize>() + - last_word.whitespace.len(); + + // The result is owned if we have indentation, otherwise + // we can simply borrow an empty string. + let mut result = if lines.is_empty() && !options.initial_indent.is_empty() { + Cow::Owned(options.initial_indent.to_owned()) + } else if !lines.is_empty() && !options.subsequent_indent.is_empty() { + Cow::Owned(options.subsequent_indent.to_owned()) + } else { + // We can use an empty string here since string + // concatenation for `Cow` preserves a borrowed value + // when either side is empty. + Cow::from("") + }; + + result += &line[idx..idx + len]; + + if !last_word.penalty.is_empty() { + result.to_mut().push_str(last_word.penalty); + } + + lines.push(result); + + // Advance by the length of `result`, plus the length of + // `last_word.whitespace` -- even if we had a penalty, we + // need to skip over the whitespace. + idx += len + last_word.whitespace.len(); + } + } + + lines +} + +/// Wrap text into columns with a given total width. +/// +/// The `left_gap`, `middle_gap` and `right_gap` arguments specify the +/// strings to insert before, between, and after the columns. The +/// total width of all columns and all gaps is specified using the +/// `total_width_or_options` argument. This argument can simply be an +/// integer if you want to use default settings when wrapping, or it +/// can be a [`Options`] value if you want to customize the wrapping. +/// +/// If the columns are narrow, it is recommended to set +/// [`Options::break_words`] to `true` to prevent words from +/// protruding into the margins. +/// +/// The per-column width is computed like this: +/// +/// ``` +/// # let (left_gap, middle_gap, right_gap) = ("", "", ""); +/// # let columns = 2; +/// # let options = textwrap::Options::new(80); +/// let inner_width = options.width +/// - textwrap::core::display_width(left_gap) +/// - textwrap::core::display_width(right_gap) +/// - textwrap::core::display_width(middle_gap) * (columns - 1); +/// let column_width = inner_width / columns; +/// ``` +/// +/// The `text` is wrapped using [`wrap`] and the given `options` +/// argument, but the width is overwritten to the computed +/// `column_width`. +/// +/// # Panics +/// +/// Panics if `columns` is zero. +/// +/// # Examples +/// +/// ``` +/// use textwrap::wrap_columns; +/// +/// let text = "\ +/// This is an example text, which is wrapped into three columns. \ +/// Notice how the final column can be shorter than the others."; +/// +/// #[cfg(feature = "smawk")] +/// assert_eq!(wrap_columns(text, 3, 50, "| ", " | ", " |"), +/// vec!["| This is | into three | column can be |", +/// "| an example | columns. | shorter than |", +/// "| text, which | Notice how | the others. |", +/// "| is wrapped | the final | |"]); +/// +/// // Without the `smawk` feature, the middle column is a little more uneven: +/// #[cfg(not(feature = "smawk"))] +/// assert_eq!(wrap_columns(text, 3, 50, "| ", " | ", " |"), +/// vec!["| This is an | three | column can be |", +/// "| example text, | columns. | shorter than |", +/// "| which is | Notice how | the others. |", +/// "| wrapped into | the final | |"]); +pub fn wrap_columns<'a, Opt>( + text: &str, + columns: usize, + total_width_or_options: Opt, + left_gap: &str, + middle_gap: &str, + right_gap: &str, +) -> Vec<String> +where + Opt: Into<Options<'a>>, +{ + assert!(columns > 0); + + let mut options = total_width_or_options.into(); + + let inner_width = options + .width + .saturating_sub(core::display_width(left_gap)) + .saturating_sub(core::display_width(right_gap)) + .saturating_sub(core::display_width(middle_gap) * (columns - 1)); + + let column_width = std::cmp::max(inner_width / columns, 1); + options.width = column_width; + let last_column_padding = " ".repeat(inner_width % column_width); + let wrapped_lines = wrap(text, options); + let lines_per_column = + wrapped_lines.len() / columns + usize::from(wrapped_lines.len() % columns > 0); + let mut lines = Vec::new(); + for line_no in 0..lines_per_column { + let mut line = String::from(left_gap); + for column_no in 0..columns { + match wrapped_lines.get(line_no + column_no * lines_per_column) { + Some(column_line) => { + line.push_str(column_line); + line.push_str(&" ".repeat(column_width - core::display_width(column_line))); + } + None => { + line.push_str(&" ".repeat(column_width)); + } + } + if column_no == columns - 1 { + line.push_str(&last_column_padding); + } else { + line.push_str(middle_gap); + } + } + line.push_str(right_gap); + lines.push(line); + } + + lines +} + +/// Fill `text` in-place without reallocating the input string. +/// +/// This function works by modifying the input string: some `' '` +/// characters will be replaced by `'\n'` characters. The rest of the +/// text remains untouched. +/// +/// Since we can only replace existing whitespace in the input with +/// `'\n'`, we cannot do hyphenation nor can we split words longer +/// than the line width. We also need to use `AsciiSpace` as the word +/// separator since we need `' '` characters between words in order to +/// replace some of them with a `'\n'`. Indentation is also ruled out. +/// In other words, `fill_inplace(width)` behaves as if you had called +/// [`fill`] with these options: +/// +/// ``` +/// # use textwrap::{core, Options, WordSplitter, WordSeparator, WrapAlgorithm}; +/// # let width = 80; +/// Options { +/// width: width, +/// initial_indent: "", +/// subsequent_indent: "", +/// break_words: false, +/// word_separator: WordSeparator::AsciiSpace, +/// wrap_algorithm: WrapAlgorithm::FirstFit, +/// word_splitter: WordSplitter::NoHyphenation, +/// }; +/// ``` +/// +/// The wrap algorithm is [`WrapAlgorithm::FirstFit`] since this +/// is the fastest algorithm — and the main reason to use +/// `fill_inplace` is to get the string broken into newlines as fast +/// as possible. +/// +/// A last difference is that (unlike [`fill`]) `fill_inplace` can +/// leave trailing whitespace on lines. This is because we wrap by +/// inserting a `'\n'` at the final whitespace in the input string: +/// +/// ``` +/// let mut text = String::from("Hello World!"); +/// textwrap::fill_inplace(&mut text, 10); +/// assert_eq!(text, "Hello \nWorld!"); +/// ``` +/// +/// If we didn't do this, the word `World!` would end up being +/// indented. You can avoid this if you make sure that your input text +/// has no double spaces. +/// +/// # Performance +/// +/// In benchmarks, `fill_inplace` is about twice as fast as [`fill`]. +/// Please see the [`linear` +/// benchmark](https://github.com/mgeisler/textwrap/blob/master/benches/linear.rs) +/// for details. +pub fn fill_inplace(text: &mut String, width: usize) { + let mut indices = Vec::new(); + + let mut offset = 0; + for line in text.split('\n') { + let words = WordSeparator::AsciiSpace + .find_words(line) + .collect::<Vec<_>>(); + let wrapped_words = wrap_algorithms::wrap_first_fit(&words, &[width as f64]); + + let mut line_offset = offset; + for words in &wrapped_words[..wrapped_words.len() - 1] { + let line_len = words + .iter() + .map(|word| word.len() + word.whitespace.len()) + .sum::<usize>(); + + line_offset += line_len; + // We've advanced past all ' ' characters -- want to move + // one ' ' backwards and insert our '\n' there. + indices.push(line_offset - 1); + } + + // Advance past entire line, plus the '\n' which was removed + // by the split call above. + offset += line.len() + 1; + } + + let mut bytes = std::mem::take(text).into_bytes(); + for idx in indices { + bytes[idx] = b'\n'; + } + *text = String::from_utf8(bytes).unwrap(); +} + +#[cfg(test)] +mod tests { + use super::*; + + #[cfg(feature = "hyphenation")] + use hyphenation::{Language, Load, Standard}; + + #[test] + fn options_agree_with_usize() { + let opt_usize = Options::from(42_usize); + let opt_options = Options::new(42); + + assert_eq!(opt_usize.width, opt_options.width); + assert_eq!(opt_usize.initial_indent, opt_options.initial_indent); + assert_eq!(opt_usize.subsequent_indent, opt_options.subsequent_indent); + assert_eq!(opt_usize.break_words, opt_options.break_words); + assert_eq!( + opt_usize.word_splitter.split_points("hello-world"), + opt_options.word_splitter.split_points("hello-world") + ); + } + + #[test] + fn no_wrap() { + assert_eq!(wrap("foo", 10), vec!["foo"]); + } + + #[test] + fn wrap_simple() { + assert_eq!(wrap("foo bar baz", 5), vec!["foo", "bar", "baz"]); + } + + #[test] + fn to_be_or_not() { + assert_eq!( + wrap( + "To be, or not to be, that is the question.", + Options::new(10).wrap_algorithm(WrapAlgorithm::FirstFit) + ), + vec!["To be, or", "not to be,", "that is", "the", "question."] + ); + } + + #[test] + fn multiple_words_on_first_line() { + assert_eq!(wrap("foo bar baz", 10), vec!["foo bar", "baz"]); + } + + #[test] + fn long_word() { + assert_eq!(wrap("foo", 0), vec!["f", "o", "o"]); + } + + #[test] + fn long_words() { + assert_eq!(wrap("foo bar", 0), vec!["f", "o", "o", "b", "a", "r"]); + } + + #[test] + fn max_width() { + assert_eq!(wrap("foo bar", usize::MAX), vec!["foo bar"]); + + let text = "Hello there! This is some English text. \ + It should not be wrapped given the extents below."; + assert_eq!(wrap(text, usize::MAX), vec![text]); + } + + #[test] + fn leading_whitespace() { + assert_eq!(wrap(" foo bar", 6), vec![" foo", "bar"]); + } + + #[test] + fn leading_whitespace_empty_first_line() { + // If there is no space for the first word, the first line + // will be empty. This is because the string is split into + // words like [" ", "foobar ", "baz"], which puts "foobar " on + // the second line. We never output trailing whitespace + assert_eq!(wrap(" foobar baz", 6), vec!["", "foobar", "baz"]); + } + + #[test] + fn trailing_whitespace() { + // Whitespace is only significant inside a line. After a line + // gets too long and is broken, the first word starts in + // column zero and is not indented. + assert_eq!(wrap("foo bar baz ", 5), vec!["foo", "bar", "baz"]); + } + + #[test] + fn issue_99() { + // We did not reset the in_whitespace flag correctly and did + // not handle single-character words after a line break. + assert_eq!( + wrap("aaabbbccc x yyyzzzwww", 9), + vec!["aaabbbccc", "x", "yyyzzzwww"] + ); + } + + #[test] + fn issue_129() { + // The dash is an em-dash which takes up four bytes. We used + // to panic since we tried to index into the character. + let options = Options::new(1).word_separator(WordSeparator::AsciiSpace); + assert_eq!(wrap("x – x", options), vec!["x", "–", "x"]); + } + + #[test] + fn wide_character_handling() { + assert_eq!(wrap("Hello, World!", 15), vec!["Hello, World!"]); + assert_eq!( + wrap( + "Hello, World!", + Options::new(15).word_separator(WordSeparator::AsciiSpace) + ), + vec!["Hello,", "World!"] + ); + + // Wide characters are allowed to break if the + // unicode-linebreak feature is enabled. + #[cfg(feature = "unicode-linebreak")] + assert_eq!( + wrap( + "Hello, World!", + Options::new(15).word_separator(WordSeparator::UnicodeBreakProperties) + ), + vec!["Hello, W", "orld!"] + ); + } + + #[test] + fn empty_line_is_indented() { + // Previously, indentation was not applied to empty lines. + // However, this is somewhat inconsistent and undesirable if + // the indentation is something like a border ("| ") which you + // want to apply to all lines, empty or not. + let options = Options::new(10).initial_indent("!!!"); + assert_eq!(fill("", &options), "!!!"); + } + + #[test] + fn indent_single_line() { + let options = Options::new(10).initial_indent(">>>"); // No trailing space + assert_eq!(fill("foo", &options), ">>>foo"); + } + + #[test] + fn indent_first_emoji() { + let options = Options::new(10).initial_indent("👉👉"); + assert_eq!( + wrap("x x x x x x x x x x x x x", &options), + vec!["👉👉x x x", "x x x x x", "x x x x x"] + ); + } + + #[test] + fn indent_multiple_lines() { + let options = Options::new(6).initial_indent("* ").subsequent_indent(" "); + assert_eq!( + wrap("foo bar baz", &options), + vec!["* foo", " bar", " baz"] + ); + } + + #[test] + fn indent_break_words() { + let options = Options::new(5).initial_indent("* ").subsequent_indent(" "); + assert_eq!(wrap("foobarbaz", &options), vec!["* foo", " bar", " baz"]); + } + + #[test] + fn initial_indent_break_words() { + // This is a corner-case showing how the long word is broken + // according to the width of the subsequent lines. The first + // fragment of the word no longer fits on the first line, + // which ends up being pure indentation. + let options = Options::new(5).initial_indent("-->"); + assert_eq!(wrap("foobarbaz", &options), vec!["-->", "fooba", "rbaz"]); + } + + #[test] + fn hyphens() { + assert_eq!(wrap("foo-bar", 5), vec!["foo-", "bar"]); + } + + #[test] + fn trailing_hyphen() { + let options = Options::new(5).break_words(false); + assert_eq!(wrap("foobar-", &options), vec!["foobar-"]); + } + + #[test] + fn multiple_hyphens() { + assert_eq!(wrap("foo-bar-baz", 5), vec!["foo-", "bar-", "baz"]); + } + + #[test] + fn hyphens_flag() { + let options = Options::new(5).break_words(false); + assert_eq!( + wrap("The --foo-bar flag.", &options), + vec!["The", "--foo-", "bar", "flag."] + ); + } + + #[test] + fn repeated_hyphens() { + let options = Options::new(4).break_words(false); + assert_eq!(wrap("foo--bar", &options), vec!["foo--bar"]); + } + + #[test] + fn hyphens_alphanumeric() { + assert_eq!(wrap("Na2-CH4", 5), vec!["Na2-", "CH4"]); + } + + #[test] + fn hyphens_non_alphanumeric() { + let options = Options::new(5).break_words(false); + assert_eq!(wrap("foo(-)bar", &options), vec!["foo(-)bar"]); + } + + #[test] + fn multiple_splits() { + assert_eq!(wrap("foo-bar-baz", 9), vec!["foo-bar-", "baz"]); + } + + #[test] + fn forced_split() { + let options = Options::new(5).break_words(false); + assert_eq!(wrap("foobar-baz", &options), vec!["foobar-", "baz"]); + } + + #[test] + fn multiple_unbroken_words_issue_193() { + let options = Options::new(3).break_words(false); + assert_eq!( + wrap("small large tiny", &options), + vec!["small", "large", "tiny"] + ); + assert_eq!( + wrap("small large tiny", &options), + vec!["small", "large", "tiny"] + ); + } + + #[test] + fn very_narrow_lines_issue_193() { + let options = Options::new(1).break_words(false); + assert_eq!(wrap("fooo x y", &options), vec!["fooo", "x", "y"]); + assert_eq!(wrap("fooo x y", &options), vec!["fooo", "x", "y"]); + } + + #[test] + fn simple_hyphens() { + let options = Options::new(8).word_splitter(WordSplitter::HyphenSplitter); + assert_eq!(wrap("foo bar-baz", &options), vec!["foo bar-", "baz"]); + } + + #[test] + fn no_hyphenation() { + let options = Options::new(8).word_splitter(WordSplitter::NoHyphenation); + assert_eq!(wrap("foo bar-baz", &options), vec!["foo", "bar-baz"]); + } + + #[test] + #[cfg(feature = "hyphenation")] + fn auto_hyphenation_double_hyphenation() { + let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); + let options = Options::new(10); + assert_eq!( + wrap("Internationalization", &options), + vec!["Internatio", "nalization"] + ); + + let options = Options::new(10).word_splitter(WordSplitter::Hyphenation(dictionary)); + assert_eq!( + wrap("Internationalization", &options), + vec!["Interna-", "tionaliza-", "tion"] + ); + } + + #[test] + #[cfg(feature = "hyphenation")] + fn auto_hyphenation_issue_158() { + let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); + let options = Options::new(10); + assert_eq!( + wrap("participation is the key to success", &options), + vec!["participat", "ion is", "the key to", "success"] + ); + + let options = Options::new(10).word_splitter(WordSplitter::Hyphenation(dictionary)); + assert_eq!( + wrap("participation is the key to success", &options), + vec!["partici-", "pation is", "the key to", "success"] + ); + } + + #[test] + #[cfg(feature = "hyphenation")] + fn split_len_hyphenation() { + // Test that hyphenation takes the width of the whitespace + // into account. + let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); + let options = Options::new(15).word_splitter(WordSplitter::Hyphenation(dictionary)); + assert_eq!( + wrap("garbage collection", &options), + vec!["garbage col-", "lection"] + ); + } + + #[test] + #[cfg(feature = "hyphenation")] + fn borrowed_lines() { + // Lines that end with an extra hyphen are owned, the final + // line is borrowed. + use std::borrow::Cow::{Borrowed, Owned}; + let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); + let options = Options::new(10).word_splitter(WordSplitter::Hyphenation(dictionary)); + let lines = wrap("Internationalization", &options); + assert_eq!(lines, vec!["Interna-", "tionaliza-", "tion"]); + if let Borrowed(s) = lines[0] { + assert!(false, "should not have been borrowed: {:?}", s); + } + if let Borrowed(s) = lines[1] { + assert!(false, "should not have been borrowed: {:?}", s); + } + if let Owned(ref s) = lines[2] { + assert!(false, "should not have been owned: {:?}", s); + } + } + + #[test] + #[cfg(feature = "hyphenation")] + fn auto_hyphenation_with_hyphen() { + let dictionary = Standard::from_embedded(Language::EnglishUS).unwrap(); + let options = Options::new(8).break_words(false); + assert_eq!( + wrap("over-caffinated", &options), + vec!["over-", "caffinated"] + ); + + let options = options.word_splitter(WordSplitter::Hyphenation(dictionary)); + assert_eq!( + wrap("over-caffinated", &options), + vec!["over-", "caffi-", "nated"] + ); + } + + #[test] + fn break_words() { + assert_eq!(wrap("foobarbaz", 3), vec!["foo", "bar", "baz"]); + } + + #[test] + fn break_words_wide_characters() { + // Even the poor man's version of `ch_width` counts these + // characters as wide. + let options = Options::new(5).word_separator(WordSeparator::AsciiSpace); + assert_eq!(wrap("Hello", options), vec!["He", "ll", "o"]); + } + + #[test] + fn break_words_zero_width() { + assert_eq!(wrap("foobar", 0), vec!["f", "o", "o", "b", "a", "r"]); + } + + #[test] + fn break_long_first_word() { + assert_eq!(wrap("testx y", 4), vec!["test", "x y"]); + } + + #[test] + fn break_words_line_breaks() { + assert_eq!(fill("ab\ncdefghijkl", 5), "ab\ncdefg\nhijkl"); + assert_eq!(fill("abcdefgh\nijkl", 5), "abcde\nfgh\nijkl"); + } + + #[test] + fn break_words_empty_lines() { + assert_eq!( + fill("foo\nbar", &Options::new(2).break_words(false)), + "foo\nbar" + ); + } + + #[test] + fn preserve_line_breaks() { + assert_eq!(fill("", 80), ""); + assert_eq!(fill("\n", 80), "\n"); + assert_eq!(fill("\n\n\n", 80), "\n\n\n"); + assert_eq!(fill("test\n", 80), "test\n"); + assert_eq!(fill("test\n\na\n\n", 80), "test\n\na\n\n"); + assert_eq!( + fill( + "1 3 5 7\n1 3 5 7", + Options::new(7).wrap_algorithm(WrapAlgorithm::FirstFit) + ), + "1 3 5 7\n1 3 5 7" + ); + assert_eq!( + fill( + "1 3 5 7\n1 3 5 7", + Options::new(5).wrap_algorithm(WrapAlgorithm::FirstFit) + ), + "1 3 5\n7\n1 3 5\n7" + ); + } + + #[test] + fn preserve_line_breaks_with_whitespace() { + assert_eq!(fill(" ", 80), ""); + assert_eq!(fill(" \n ", 80), "\n"); + assert_eq!(fill(" \n \n \n ", 80), "\n\n\n"); + } + + #[test] + fn non_breaking_space() { + let options = Options::new(5).break_words(false); + assert_eq!(fill("foo bar baz", &options), "foo bar baz"); + } + + #[test] + fn non_breaking_hyphen() { + let options = Options::new(5).break_words(false); + assert_eq!(fill("foo‑bar‑baz", &options), "foo‑bar‑baz"); + } + + #[test] + fn fill_simple() { + assert_eq!(fill("foo bar baz", 10), "foo bar\nbaz"); + } + + #[test] + fn fill_colored_text() { + // The words are much longer than 6 bytes, but they remain + // intact after filling the text. + let green_hello = "\u{1b}[0m\u{1b}[32mHello\u{1b}[0m"; + let blue_world = "\u{1b}[0m\u{1b}[34mWorld!\u{1b}[0m"; + assert_eq!( + fill(&(String::from(green_hello) + " " + &blue_world), 6), + String::from(green_hello) + "\n" + &blue_world + ); + } + + #[test] + fn fill_unicode_boundary() { + // https://github.com/mgeisler/textwrap/issues/390 + fill("\u{1b}!Ͽ", 10); + } + + #[test] + fn fill_inplace_empty() { + let mut text = String::from(""); + fill_inplace(&mut text, 80); + assert_eq!(text, ""); + } + + #[test] + fn fill_inplace_simple() { + let mut text = String::from("foo bar baz"); + fill_inplace(&mut text, 10); + assert_eq!(text, "foo bar\nbaz"); + } + + #[test] + fn fill_inplace_multiple_lines() { + let mut text = String::from("Some text to wrap over multiple lines"); + fill_inplace(&mut text, 12); + assert_eq!(text, "Some text to\nwrap over\nmultiple\nlines"); + } + + #[test] + fn fill_inplace_long_word() { + let mut text = String::from("Internationalization is hard"); + fill_inplace(&mut text, 10); + assert_eq!(text, "Internationalization\nis hard"); + } + + #[test] + fn fill_inplace_no_hyphen_splitting() { + let mut text = String::from("A well-chosen example"); + fill_inplace(&mut text, 10); + assert_eq!(text, "A\nwell-chosen\nexample"); + } + + #[test] + fn fill_inplace_newlines() { + let mut text = String::from("foo bar\n\nbaz\n\n\n"); + fill_inplace(&mut text, 10); + assert_eq!(text, "foo bar\n\nbaz\n\n\n"); + } + + #[test] + fn fill_inplace_newlines_reset_line_width() { + let mut text = String::from("1 3 5\n1 3 5 7 9\n1 3 5 7 9 1 3"); + fill_inplace(&mut text, 10); + assert_eq!(text, "1 3 5\n1 3 5 7 9\n1 3 5 7 9\n1 3"); + } + + #[test] + fn fill_inplace_leading_whitespace() { + let mut text = String::from(" foo bar baz"); + fill_inplace(&mut text, 10); + assert_eq!(text, " foo bar\nbaz"); + } + + #[test] + fn fill_inplace_trailing_whitespace() { + let mut text = String::from("foo bar baz "); + fill_inplace(&mut text, 10); + assert_eq!(text, "foo bar\nbaz "); + } + + #[test] + fn fill_inplace_interior_whitespace() { + // To avoid an unwanted indentation of "baz", it is important + // to replace the final ' ' with '\n'. + let mut text = String::from("foo bar baz"); + fill_inplace(&mut text, 10); + assert_eq!(text, "foo bar \nbaz"); + } + + #[test] + fn unfill_simple() { + let (text, options) = unfill("foo\nbar"); + assert_eq!(text, "foo bar"); + assert_eq!(options.width, 3); + } + + #[test] + fn unfill_trailing_newlines() { + let (text, options) = unfill("foo\nbar\n\n\n"); + assert_eq!(text, "foo bar\n\n\n"); + assert_eq!(options.width, 3); + } + + #[test] + fn unfill_initial_indent() { + let (text, options) = unfill(" foo\nbar\nbaz"); + assert_eq!(text, "foo bar baz"); + assert_eq!(options.width, 5); + assert_eq!(options.initial_indent, " "); + } + + #[test] + fn unfill_differing_indents() { + let (text, options) = unfill(" foo\n bar\n baz"); + assert_eq!(text, "foo bar baz"); + assert_eq!(options.width, 7); + assert_eq!(options.initial_indent, " "); + assert_eq!(options.subsequent_indent, " "); + } + + #[test] + fn unfill_list_item() { + let (text, options) = unfill("* foo\n bar\n baz"); + assert_eq!(text, "foo bar baz"); + assert_eq!(options.width, 5); + assert_eq!(options.initial_indent, "* "); + assert_eq!(options.subsequent_indent, " "); + } + + #[test] + fn unfill_multiple_char_prefix() { + let (text, options) = unfill(" // foo bar\n // baz\n // quux"); + assert_eq!(text, "foo bar baz quux"); + assert_eq!(options.width, 14); + assert_eq!(options.initial_indent, " // "); + assert_eq!(options.subsequent_indent, " // "); + } + + #[test] + fn unfill_block_quote() { + let (text, options) = unfill("> foo\n> bar\n> baz"); + assert_eq!(text, "foo bar baz"); + assert_eq!(options.width, 5); + assert_eq!(options.initial_indent, "> "); + assert_eq!(options.subsequent_indent, "> "); + } + + #[test] + fn unfill_whitespace() { + assert_eq!(unfill("foo bar").0, "foo bar"); + } + + #[test] + fn wrap_columns_empty_text() { + assert_eq!(wrap_columns("", 1, 10, "| ", "", " |"), vec!["| |"]); + } + + #[test] + fn wrap_columns_single_column() { + assert_eq!( + wrap_columns("Foo", 3, 30, "| ", " | ", " |"), + vec!["| Foo | | |"] + ); + } + + #[test] + fn wrap_columns_uneven_columns() { + // The gaps take up a total of 5 columns, so the columns are + // (21 - 5)/4 = 4 columns wide: + assert_eq!( + wrap_columns("Foo Bar Baz Quux", 4, 21, "|", "|", "|"), + vec!["|Foo |Bar |Baz |Quux|"] + ); + // As the total width increases, the last column absorbs the + // excess width: + assert_eq!( + wrap_columns("Foo Bar Baz Quux", 4, 24, "|", "|", "|"), + vec!["|Foo |Bar |Baz |Quux |"] + ); + // Finally, when the width is 25, the columns can be resized + // to a width of (25 - 5)/4 = 5 columns: + assert_eq!( + wrap_columns("Foo Bar Baz Quux", 4, 25, "|", "|", "|"), + vec!["|Foo |Bar |Baz |Quux |"] + ); + } + + #[test] + #[cfg(feature = "unicode-width")] + fn wrap_columns_with_emojis() { + assert_eq!( + wrap_columns( + "Words and a few emojis 😍 wrapped in ⓶ columns", + 2, + 30, + "✨ ", + " ⚽ ", + " 👀" + ), + vec![ + "✨ Words ⚽ wrapped in 👀", + "✨ and a few ⚽ ⓶ columns 👀", + "✨ emojis 😍 ⚽ 👀" + ] + ); + } + + #[test] + fn wrap_columns_big_gaps() { + // The column width shrinks to 1 because the gaps take up all + // the space. + assert_eq!( + wrap_columns("xyz", 2, 10, "----> ", " !!! ", " <----"), + vec![ + "----> x !!! z <----", // + "----> y !!! <----" + ] + ); + } + + #[test] + #[should_panic] + fn wrap_columns_panic_with_zero_columns() { + wrap_columns("", 0, 10, "", "", ""); + } +} |