mirror of
https://github.com/uutils/coreutils
synced 2024-12-23 11:33:15 +00:00
564 lines
22 KiB
Rust
564 lines
22 KiB
Rust
/*
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* This file is part of `fmt` from the uutils coreutils package.
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*
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* (c) kwantam <kwantam@gmail.com>
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*
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* For the full copyright and license information, please view the LICENSE
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* file that was distributed with this source code.
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*/
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use core::iter::Peekable;
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use std::io::Lines;
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use std::slice::Items;
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use std::str::CharRange;
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use FileOrStdReader;
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use FmtOptions;
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use charwidth;
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#[inline(always)]
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fn char_width(c: char) -> uint {
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if (c as uint) < 0xA0 {
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// if it is ASCII, call it exactly 1 wide (including control chars)
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// calling control chars' widths 1 is consistent with OpenBSD fmt
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1
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} else {
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// otherwise, get the unicode width
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// note that we shouldn't actually get None here because only c < 0xA0
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// can return None, but for safety and future-proofing we do it this way
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charwidth::width(c, false).unwrap_or(1)
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}
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}
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// lines with PSKIP, lacking PREFIX, or which are entirely blank are
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// NoFormatLines; otherwise, they are FormatLines
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#[deriving(Show)]
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enum Line {
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FormatLine(FileLine),
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NoFormatLine(String, bool)
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}
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impl Line {
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// when we know that it's a FormatLine, as in the ParagraphStream iterator
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fn get_fileline(self) -> FileLine {
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match self {
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FormatLine(fl) => fl,
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NoFormatLine(..) => fail!("Found NoFormatLine when expecting FormatLine")
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}
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}
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// when we know that it's a NoFormatLine, as in the ParagraphStream iterator
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fn get_noformatline(self) -> (String, bool) {
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match self {
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NoFormatLine(s, b) => (s, b),
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FormatLine(..) => fail!("Found FormatLine when expecting NoFormatLine")
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}
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}
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}
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// each line's prefix has to be considered to know whether to merge it with
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// the next line or not
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#[deriving(Show)]
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struct FileLine {
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line : String,
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indent_end : uint, // the end of the indent, always the start of the text
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pfxind_end : uint, // the end of the PREFIX's indent, that is, the spaces before the prefix
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indent_len : uint, // display length of indent taking into account tabs
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prefix_len : uint, // PREFIX indent length taking into account tabs
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}
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// iterator that produces a stream of Lines from a file
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pub struct FileLines<'a> {
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opts : &'a FmtOptions,
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lines : Lines<'a, FileOrStdReader>,
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}
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impl<'a> FileLines<'a> {
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fn new<'a>(opts: &'a FmtOptions, lines: Lines<'a, FileOrStdReader>) -> FileLines<'a> {
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FileLines { opts: opts, lines: lines }
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}
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// returns true if this line should be formatted
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fn match_prefix(&self, line: &str) -> (bool, uint) {
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if !self.opts.use_prefix { return (true, 0u); }
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FileLines::match_prefix_generic(self.opts.prefix.as_slice(), line, self.opts.xprefix)
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}
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// returns true if this line should be formatted
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fn match_anti_prefix(&self, line: &str) -> bool {
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if !self.opts.use_anti_prefix { return true; }
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match FileLines::match_prefix_generic(self.opts.anti_prefix.as_slice(), line, self.opts.xanti_prefix) {
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(true, _) => false,
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(_ , _) => true
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}
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}
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fn match_prefix_generic(pfx: &str, line: &str, exact: bool) -> (bool, uint) {
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if line.starts_with(pfx) {
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return (true, 0);
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}
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if !exact {
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// we do it this way rather than byte indexing to support unicode whitespace chars
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let mut i = 0u;
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while (i < line.len()) && line.char_at(i).is_whitespace() {
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i = match line.char_range_at(i) { CharRange { ch: _ , next: nxi } => nxi };
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if line.slice_from(i).starts_with(pfx) {
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return (true, i);
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}
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}
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}
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(false, 0)
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}
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fn compute_indent(&self, string: &str, prefix_end: uint) -> (uint, uint, uint) {
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let mut prefix_len = 0;
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let mut indent_len = 0;
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let mut indent_end = 0;
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for (os, c) in string.char_indices() {
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if os == prefix_end {
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// we found the end of the prefix, so this is the printed length of the prefix here
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prefix_len = indent_len;
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}
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if (os >= prefix_end) && !c.is_whitespace() {
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// found first non-whitespace after prefix, this is indent_end
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indent_end = os;
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break;
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} else if c == '\t' {
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// compute tab length
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indent_len = (indent_len / self.opts.tabwidth + 1) * self.opts.tabwidth;
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} else {
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// non-tab character
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indent_len += char_width(c);
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}
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}
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(indent_end, prefix_len, indent_len)
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}
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}
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impl<'a> Iterator<Line> for FileLines<'a> {
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fn next(&mut self) -> Option<Line> {
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let n =
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match self.lines.next() {
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Some(t) => match t {
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Ok(tt) => tt,
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Err(_) => return None
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},
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None => return None
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};
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// if this line is entirely whitespace,
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// emit a blank line
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// Err(true) indicates that this was a linebreak,
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// which is important to know when detecting mail headers
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if n.as_slice().is_whitespace() {
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return Some(NoFormatLine("\n".to_string(), true));
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}
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// if this line does not match the prefix,
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// emit the line unprocessed and iterate again
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let (pmatch, poffset) = self.match_prefix(n.as_slice());
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if !pmatch {
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return Some(NoFormatLine(n, false));
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} else if n.as_slice().slice_from(poffset + self.opts.prefix.len()).is_whitespace() {
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// if the line matches the prefix, but is blank after,
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// don't allow lines to be combined through it (that is,
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// treat it like a blank line, except that since it's
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// not truly blank we will not allow mail headers on the
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// following line)
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return Some(NoFormatLine(n, false));
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}
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// skip if this line matches the anti_prefix
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// (NOTE definition of match_anti_prefix is TRUE if we should process)
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if !self.match_anti_prefix(n.as_slice()) {
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return Some(NoFormatLine(n, false));
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}
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// figure out the indent, prefix, and prefixindent ending points
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let prefix_end = poffset + self.opts.prefix.len();
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let (indent_end, prefix_len, indent_len) = self.compute_indent(n.as_slice(), prefix_end);
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Some(FormatLine(FileLine {
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line : n,
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indent_end : indent_end,
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pfxind_end : poffset,
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indent_len : indent_len,
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prefix_len : prefix_len
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}))
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}
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}
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// a paragraph : a collection of FileLines that are to be formatted
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// plus info about the paragraph's indentation
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// (but we only retain the String from the FileLine; the other info
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// is only there to help us in deciding how to merge lines into Paragraphs
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#[deriving(Show)]
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pub struct Paragraph {
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lines : Vec<String>, // the lines of the file
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pub init_str : String, // string representing the init, that is, the first line's indent
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pub init_len : uint, // printable length of the init string considering TABWIDTH
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init_end : uint, // byte location of end of init in first line String
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pub indent_str : String, // string representing indent
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pub indent_len : uint, // length of above
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indent_end : uint, // byte location of end of indent (in crown and tagged mode, only applies to 2nd line and onward)
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pub mail_header : bool // we need to know if this is a mail header because we do word splitting differently in that case
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}
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// an iterator producing a stream of paragraphs from a stream of lines
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// given a set of options.
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pub struct ParagraphStream<'a> {
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lines : Peekable<Line, FileLines<'a>>,
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next_mail : bool,
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opts : &'a FmtOptions,
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}
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impl<'a> ParagraphStream<'a> {
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pub fn new<'a>(opts: &'a FmtOptions, reader: &'a mut FileOrStdReader) -> ParagraphStream<'a> {
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let lines = FileLines::new(opts, reader.lines()).peekable();
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// at the beginning of the file, we might find mail headers
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ParagraphStream { lines: lines, next_mail: true, opts: opts }
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}
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// detect RFC822 mail header
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fn is_mail_header(line: &FileLine) -> bool {
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// a mail header begins with either "From " (envelope sender line)
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// or with a sequence of printable ASCII chars (33 to 126, inclusive,
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// except colon) followed by a colon.
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if line.indent_end > 0 {
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false
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} else {
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let lSlice = line.line.as_slice();
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if lSlice.starts_with("From ") {
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true
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} else {
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let colonPosn =
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match lSlice.find(':') {
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Some(n) => n,
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None => return false
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};
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// header field must be nonzero length
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if colonPosn == 0 { return false; }
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return lSlice.slice_to(colonPosn).chars().all(|x| match x as uint {
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y if y < 33 || y > 126 => false,
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_ => true
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});
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}
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}
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}
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}
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impl<'a> Iterator<Result<Paragraph, String>> for ParagraphStream<'a> {
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fn next(&mut self) -> Option<Result<Paragraph, String>> {
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// return a NoFormatLine in an Err; it should immediately be output
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let noformat =
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match self.lines.peek() {
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None => return None,
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Some(l) => match l {
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&FormatLine(_) => false,
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&NoFormatLine(_, _) => true
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}
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};
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// found a NoFormatLine, immediately dump it out
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if noformat {
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let (s, nm) = self.lines.next().unwrap().get_noformatline();
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self.next_mail = nm;
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return Some(Err(s));
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}
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// found a FormatLine, now build a paragraph
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let mut init_str = String::new();
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let mut init_end = 0;
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let mut init_len = 0;
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let mut indent_str = String::new();
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let mut indent_end = 0;
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let mut indent_len = 0;
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let mut prefix_len = 0;
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let mut pfxind_end = 0;
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let mut pLines = Vec::new();
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let mut in_mail = false;
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let mut second_done = false; // for when we use crown or tagged mode
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loop {
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{ // peek ahead
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// need to explicitly force fl out of scope before we can call self.lines.next()
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let fl =
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match self.lines.peek() {
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None => break,
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Some(l) => {
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match l {
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&FormatLine(ref x) => x,
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&NoFormatLine(..) => break
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}
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}
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};
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if pLines.len() == 0 {
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// first time through the loop, get things set up
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// detect mail header
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if self.opts.mail && self.next_mail && ParagraphStream::is_mail_header(fl) {
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in_mail = true;
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// there can't be any indent or pfxind because otherwise is_mail_header would fail
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// since there cannot be any whitespace before the colon in a valid header field
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indent_str.push_str(" ");
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indent_len = 2;
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} else {
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if self.opts.crown || self.opts.tagged {
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init_str.push_str(fl.line.as_slice().slice_to(fl.indent_end));
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init_len = fl.indent_len;
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init_end = fl.indent_end;
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} else {
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second_done = true;
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}
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// these will be overwritten in the 2nd line of crown or tagged mode, but
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// we are not guaranteed to get to the 2nd line, e.g., if the next line
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// is a NoFormatLine or None. Thus, we set sane defaults the 1st time around
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indent_str.push_str(fl.line.as_slice().slice_to(fl.indent_end));
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indent_len = fl.indent_len;
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indent_end = fl.indent_end;
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// save these to check for matching lines
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prefix_len = fl.prefix_len;
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pfxind_end = fl.pfxind_end;
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// in tagged mode, add 4 spaces of additional indenting by default
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// (gnu fmt's behavior is different: it seems to find the closest column to
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// indent_end that is divisible by 3. But honesly that behavior seems
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// pretty arbitrary.
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// Perhaps a better default would be 1 TABWIDTH? But ugh that's so big.
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if self.opts.tagged {
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indent_str.push_str(" ");
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indent_len += 4;
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}
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}
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} else if in_mail {
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// lines following mail headers must begin with spaces
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if fl.indent_end == 0 || (self.opts.use_prefix && fl.pfxind_end == 0) {
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break; // this line does not begin with spaces
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}
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} else if !second_done {
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// now we have enough info to handle crown margin and tagged mode
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if prefix_len != fl.prefix_len || pfxind_end != fl.pfxind_end {
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// in both crown and tagged modes we require that prefix_len is the same
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break;
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} else if self.opts.tagged && indent_len - 4 == fl.indent_len && indent_end == fl.indent_end {
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// in tagged mode, indent has to be *different* on following lines
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break;
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} else {
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// this is part of the same paragraph, get the indent info from this line
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indent_str.clear();
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indent_str.push_str(fl.line.as_slice().slice_to(fl.indent_end));
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indent_len = fl.indent_len;
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indent_end = fl.indent_end;
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}
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second_done = true;
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} else {
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// detect mismatch
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if indent_end != fl.indent_end || pfxind_end != fl.pfxind_end || indent_len != fl.indent_len || prefix_len != fl.prefix_len {
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break;
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}
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}
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}
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pLines.push(self.lines.next().unwrap().get_fileline().line);
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// when we're in split-only mode, we never join lines, so stop here
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if self.opts.split_only {
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break;
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}
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}
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// if this was a mail header, then the next line can be detected as one. Otherwise, it cannot.
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// NOTE next_mail is true at ParagraphStream instantiation, and is set to true after a blank
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// NoFormatLine.
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self.next_mail = in_mail;
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Some(Ok(Paragraph {
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lines : pLines,
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init_str : init_str,
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init_len : init_len,
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init_end : init_end,
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indent_str : indent_str,
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indent_len : indent_len,
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indent_end : indent_end,
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mail_header : in_mail
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}))
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}
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}
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pub struct ParaWords<'a> {
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opts : &'a FmtOptions,
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para : &'a Paragraph,
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words : Vec<WordInfo<'a>>
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}
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impl<'a> ParaWords<'a> {
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pub fn new<'a>(opts: &'a FmtOptions, para: &'a Paragraph) -> ParaWords<'a> {
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let mut pw = ParaWords { opts: opts, para: para, words: Vec::new() };
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pw.create_words();
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pw
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}
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fn create_words<'r>(&'r mut self) {
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if self.para.mail_header {
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// no extra spacing for mail headers; always exactly 1 space
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// safe to trim_left on every line of a mail header, since the
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// first line is guaranteed not to have any spaces
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self.words.extend(self.para.lines.iter().flat_map(|x| x.as_slice().words()).map(|x| WordInfo {
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word : x,
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word_start : 0,
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word_nchars : x.len(), // OK for mail headers; only ASCII allowed (unicode is escaped)
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before_tab : None,
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after_tab : 0,
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sentence_start : false,
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ends_punct : false,
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new_line : false
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}));
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} else {
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// first line
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self.words.extend(
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if self.opts.crown || self.opts.tagged {
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// crown and tagged mode has the "init" in the first line, so slice from there
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WordSplit::new(self.opts, self.para.lines.get(0).as_slice().slice_from(self.para.init_end))
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} else {
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// otherwise we slice from the indent
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WordSplit::new(self.opts, self.para.lines.get(0).as_slice().slice_from(self.para.indent_end))
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});
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if self.para.lines.len() > 1 {
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let indent_end = self.para.indent_end;
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let opts = self.opts;
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self.words.extend(
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self.para.lines.iter().skip(1).flat_map(|x| WordSplit::new(opts, x.as_slice().slice_from(indent_end))));
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}
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}
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}
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pub fn words(&'a self) -> Items<'a, WordInfo<'a>> { return self.words.iter() }
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}
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struct WordSplit<'a> {
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opts : &'a FmtOptions,
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string : &'a str,
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length : uint,
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position : uint,
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prev_punct : bool
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}
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impl<'a> WordSplit<'a> {
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fn analyze_tabs(&self, string: &str) -> (Option<uint>, uint, Option<uint>) {
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// given a string, determine (length before tab) and (printed length after first tab)
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// if there are no tabs, beforetab = -1 and aftertab is the printed length
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let mut beforetab = None;
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let mut aftertab = 0;
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let mut word_start = None;
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for (os, c) in string.char_indices() {
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if !c.is_whitespace() {
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word_start = Some(os);
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break;
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} else if c == '\t' {
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if beforetab == None {
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beforetab = Some(aftertab);
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aftertab = 0;
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} else {
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aftertab = (aftertab / self.opts.tabwidth + 1) * self.opts.tabwidth;
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}
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} else {
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aftertab += 1;
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}
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}
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(beforetab, aftertab, word_start)
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}
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}
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impl<'a> WordSplit<'a> {
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fn new<'a>(opts: &'a FmtOptions, string: &'a str) -> WordSplit<'a> {
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// wordsplits *must* start at a non-whitespace character
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let trim_string = string.trim_left();
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WordSplit { opts: opts, string: trim_string, length: string.len(), position: 0, prev_punct: false }
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}
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|
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fn is_punctuation(c: char) -> bool {
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match c {
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'!' | '.' | '?' => true,
|
|
_ => false
|
|
}
|
|
}
|
|
}
|
|
|
|
pub struct WordInfo<'a> {
|
|
pub word : &'a str,
|
|
pub word_start : uint,
|
|
pub word_nchars : uint,
|
|
pub before_tab : Option<uint>,
|
|
pub after_tab : uint,
|
|
pub sentence_start : bool,
|
|
pub ends_punct : bool,
|
|
pub new_line : bool
|
|
}
|
|
|
|
// returns (&str, is_start_of_sentence)
|
|
impl<'a> Iterator<WordInfo<'a>> for WordSplit<'a> {
|
|
fn next(&mut self) -> Option<WordInfo<'a>> {
|
|
if self.position >= self.length {
|
|
return None
|
|
}
|
|
|
|
let old_position = self.position;
|
|
let new_line = old_position == 0;
|
|
|
|
// find the start of the next word, and record if we find a tab character
|
|
let (before_tab, after_tab, word_start) = match self.analyze_tabs(self.string.slice_from(old_position)) {
|
|
(b, a, Some(s)) => (b, a, s + old_position),
|
|
(_, _, None) => {
|
|
self.position = self.length;
|
|
return None;
|
|
}
|
|
};
|
|
|
|
// find the beginning of the next whitespace
|
|
// note that this preserves the invariant that self.position
|
|
// points to whitespace character OR end of string
|
|
let mut word_nchars = 0;
|
|
self.position =
|
|
match self.string.slice_from(word_start)
|
|
.find(|x: char| if !x.is_whitespace() { word_nchars += char_width(x); false } else { true }) {
|
|
None => self.length,
|
|
Some(s) => s + word_start
|
|
};
|
|
|
|
let word_start_relative = word_start - old_position;
|
|
// if the previous sentence was punctuation and this sentence has >2 whitespace or one tab, is a new sentence.
|
|
let is_start_of_sentence = self.prev_punct && (before_tab.is_some() || word_start_relative > 1);
|
|
|
|
// now record whether this word ends in punctuation
|
|
self.prev_punct = match self.string.char_range_at_reverse(self.position) {
|
|
CharRange { ch, next: _ } => WordSplit::is_punctuation(ch)
|
|
};
|
|
|
|
let (word, word_start_relative, before_tab, after_tab) =
|
|
if self.opts.uniform {
|
|
(self.string.slice(word_start, self.position), 0, None, 0)
|
|
} else {
|
|
(self.string.slice(old_position, self.position), word_start_relative, before_tab, after_tab)
|
|
};
|
|
|
|
Some(WordInfo {
|
|
word : word,
|
|
word_start : word_start_relative,
|
|
word_nchars : word_nchars,
|
|
before_tab : before_tab,
|
|
after_tab : after_tab,
|
|
sentence_start : is_start_of_sentence,
|
|
ends_punct : self.prev_punct,
|
|
new_line : new_line
|
|
})
|
|
}
|
|
}
|