// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. #![feature(rustc_private)] extern crate diff; #[macro_use] extern crate log; extern crate regex; extern crate rustc_errors as errors; extern crate serde; #[macro_use] extern crate serde_derive; extern crate serde_json; extern crate strings; extern crate syntax; extern crate term; extern crate unicode_segmentation; use std::borrow::Cow; use std::collections::HashMap; use std::fmt; use std::io::{self, stdout, Write}; use std::iter::repeat; use std::ops::{Add, Sub}; use std::path::{Path, PathBuf}; use std::rc::Rc; use errors::{DiagnosticBuilder, Handler}; use errors::emitter::{ColorConfig, EmitterWriter}; use macros::MacroArg; use strings::string_buffer::StringBuffer; use syntax::ast; use syntax::codemap::{CodeMap, FilePathMapping, Span}; use syntax::parse::{self, ParseSess}; use checkstyle::{output_footer, output_header}; use config::Config; use filemap::FileMap; use issues::{BadIssueSeeker, Issue}; use utils::{isatty, mk_sp, outer_attributes}; use visitor::FmtVisitor; pub use self::summary::Summary; #[macro_use] mod utils; pub mod config; pub mod codemap; pub mod filemap; pub mod file_lines; pub mod visitor; mod checkstyle; mod items; mod missed_spans; mod lists; mod types; mod expr; mod imports; mod issues; mod rewrite; mod string; mod comment; pub mod modules; pub mod rustfmt_diff; mod chains; mod macros; mod patterns; mod summary; mod vertical; /// Spanned returns a span including attributes, if available. pub trait Spanned { fn span(&self) -> Span; } macro_rules! span_with_attrs_lo_hi { ($this:ident, $lo:expr, $hi:expr) => { { let attrs = outer_attributes(&$this.attrs); if attrs.is_empty() { mk_sp($lo, $hi) } else { mk_sp(attrs[0].span.lo(), $hi) } } } } macro_rules! span_with_attrs { ($this:ident) => { span_with_attrs_lo_hi!($this, $this.span.lo(), $this.span.hi()) } } macro_rules! implement_spanned { ($this:ty) => { impl Spanned for $this { fn span(&self) -> Span { span_with_attrs!(self) } } } } // Implement `Spanned` for structs with `attrs` field. implement_spanned!(ast::Expr); implement_spanned!(ast::Field); implement_spanned!(ast::ForeignItem); implement_spanned!(ast::Item); implement_spanned!(ast::Local); impl Spanned for ast::Stmt { fn span(&self) -> Span { match self.node { ast::StmtKind::Local(ref local) => mk_sp(local.span().lo(), self.span.hi()), ast::StmtKind::Item(ref item) => mk_sp(item.span().lo(), self.span.hi()), ast::StmtKind::Expr(ref expr) | ast::StmtKind::Semi(ref expr) => { mk_sp(expr.span().lo(), self.span.hi()) } ast::StmtKind::Mac(ref mac) => { let (_, _, ref attrs) = **mac; if attrs.is_empty() { self.span } else { mk_sp(attrs[0].span.lo(), self.span.hi()) } } } } } impl Spanned for ast::Pat { fn span(&self) -> Span { self.span } } impl Spanned for ast::Ty { fn span(&self) -> Span { self.span } } impl Spanned for ast::Arm { fn span(&self) -> Span { span_with_attrs_lo_hi!(self, self.pats[0].span.lo(), self.body.span.hi()) } } impl Spanned for ast::Arg { fn span(&self) -> Span { if items::is_named_arg(self) { utils::mk_sp(self.pat.span.lo(), self.ty.span.hi()) } else { self.ty.span } } } impl Spanned for ast::StructField { fn span(&self) -> Span { span_with_attrs_lo_hi!(self, self.span.lo(), self.ty.span.hi()) } } impl Spanned for ast::WherePredicate { fn span(&self) -> Span { match *self { ast::WherePredicate::BoundPredicate(ref p) => p.span, ast::WherePredicate::RegionPredicate(ref p) => p.span, ast::WherePredicate::EqPredicate(ref p) => p.span, } } } impl Spanned for ast::FunctionRetTy { fn span(&self) -> Span { match *self { ast::FunctionRetTy::Default(span) => span, ast::FunctionRetTy::Ty(ref ty) => ty.span, } } } impl Spanned for ast::TyParam { fn span(&self) -> Span { // Note that ty.span is the span for ty.ident, not the whole item. let lo = if self.attrs.is_empty() { self.span.lo() } else { self.attrs[0].span.lo() }; if let Some(ref def) = self.default { return mk_sp(lo, def.span.hi()); } if self.bounds.is_empty() { return mk_sp(lo, self.span.hi()); } let hi = self.bounds[self.bounds.len() - 1].span().hi(); mk_sp(lo, hi) } } impl Spanned for ast::TyParamBound { fn span(&self) -> Span { match *self { ast::TyParamBound::TraitTyParamBound(ref ptr, _) => ptr.span, ast::TyParamBound::RegionTyParamBound(ref l) => l.span, } } } impl Spanned for ast::LifetimeDef { fn span(&self) -> Span { let hi = if self.bounds.is_empty() { self.lifetime.span.hi() } else { self.bounds[self.bounds.len() - 1].span.hi() }; mk_sp(self.lifetime.span.lo(), hi) } } impl Spanned for MacroArg { fn span(&self) -> Span { match *self { MacroArg::Expr(ref expr) => expr.span(), MacroArg::Ty(ref ty) => ty.span(), MacroArg::Pat(ref pat) => pat.span(), } } } #[derive(Copy, Clone, Debug)] pub struct Indent { // Width of the block indent, in characters. Must be a multiple of // Config::tab_spaces. pub block_indent: usize, // Alignment in characters. pub alignment: usize, } // INDENT_BUFFER.len() == 60 const INDENT_BUFFER: &str = " "; const INDENT_BUFFER_LEN: usize = 60; impl Indent { pub fn new(block_indent: usize, alignment: usize) -> Indent { Indent { block_indent: block_indent, alignment: alignment, } } pub fn from_width(config: &Config, width: usize) -> Indent { if config.hard_tabs() { let tab_num = width / config.tab_spaces(); let alignment = width % config.tab_spaces(); Indent::new(config.tab_spaces() * tab_num, alignment) } else { Indent::new(width, 0) } } pub fn empty() -> Indent { Indent::new(0, 0) } pub fn block_only(&self) -> Indent { Indent { block_indent: self.block_indent, alignment: 0, } } pub fn block_indent(mut self, config: &Config) -> Indent { self.block_indent += config.tab_spaces(); self } pub fn block_unindent(mut self, config: &Config) -> Indent { if self.block_indent < config.tab_spaces() { Indent::new(self.block_indent, 0) } else { self.block_indent -= config.tab_spaces(); self } } pub fn width(&self) -> usize { self.block_indent + self.alignment } pub fn to_string(&self, config: &Config) -> Cow<'static, str> { let (num_tabs, num_spaces) = if config.hard_tabs() { (self.block_indent / config.tab_spaces(), self.alignment) } else { (0, self.width()) }; let num_chars = num_tabs + num_spaces; if num_tabs == 0 && num_chars <= INDENT_BUFFER_LEN { Cow::from(&INDENT_BUFFER[..num_chars]) } else { let mut indent = String::with_capacity(num_chars); for _ in 0..num_tabs { indent.push('\t') } for _ in 0..num_spaces { indent.push(' ') } Cow::from(indent) } } } impl Add for Indent { type Output = Indent; fn add(self, rhs: Indent) -> Indent { Indent { block_indent: self.block_indent + rhs.block_indent, alignment: self.alignment + rhs.alignment, } } } impl Sub for Indent { type Output = Indent; fn sub(self, rhs: Indent) -> Indent { Indent::new( self.block_indent - rhs.block_indent, self.alignment - rhs.alignment, ) } } impl Add for Indent { type Output = Indent; fn add(self, rhs: usize) -> Indent { Indent::new(self.block_indent, self.alignment + rhs) } } impl Sub for Indent { type Output = Indent; fn sub(self, rhs: usize) -> Indent { Indent::new(self.block_indent, self.alignment - rhs) } } #[derive(Copy, Clone, Debug)] pub struct Shape { pub width: usize, // The current indentation of code. pub indent: Indent, // Indentation + any already emitted text on the first line of the current // statement. pub offset: usize, } impl Shape { /// `indent` is the indentation of the first line. The next lines /// should begin with at least `indent` spaces (except backwards /// indentation). The first line should not begin with indentation. /// `width` is the maximum number of characters on the last line /// (excluding `indent`). The width of other lines is not limited by /// `width`. /// Note that in reality, we sometimes use width for lines other than the /// last (i.e., we are conservative). // .......*-------* // | | // | *-* // *-----| // |<------------>| max width // |<---->| indent // |<--->| width pub fn legacy(width: usize, indent: Indent) -> Shape { Shape { width: width, indent: indent, offset: indent.alignment, } } pub fn indented(indent: Indent, config: &Config) -> Shape { Shape { width: config.max_width().checked_sub(indent.width()).unwrap_or(0), indent: indent, offset: indent.alignment, } } pub fn with_max_width(&self, config: &Config) -> Shape { Shape { width: config .max_width() .checked_sub(self.indent.width()) .unwrap_or(0), ..*self } } pub fn offset(width: usize, indent: Indent, offset: usize) -> Shape { Shape { width: width, indent: indent, offset: offset, } } pub fn visual_indent(&self, extra_width: usize) -> Shape { let alignment = self.offset + extra_width; Shape { width: self.width, indent: Indent::new(self.indent.block_indent, alignment), offset: alignment, } } pub fn block_indent(&self, extra_width: usize) -> Shape { if self.indent.alignment == 0 { Shape { width: self.width, indent: Indent::new(self.indent.block_indent + extra_width, 0), offset: 0, } } else { Shape { width: self.width, indent: self.indent + extra_width, offset: self.indent.alignment + extra_width, } } } pub fn block_left(&self, width: usize) -> Option { self.block_indent(width).sub_width(width) } pub fn add_offset(&self, extra_width: usize) -> Shape { Shape { offset: self.offset + extra_width, ..*self } } pub fn block(&self) -> Shape { Shape { indent: self.indent.block_only(), ..*self } } pub fn sub_width(&self, width: usize) -> Option { Some(Shape { width: try_opt!(self.width.checked_sub(width)), ..*self }) } pub fn shrink_left(&self, width: usize) -> Option { Some(Shape { width: try_opt!(self.width.checked_sub(width)), indent: self.indent + width, offset: self.offset + width, }) } pub fn offset_left(&self, width: usize) -> Option { self.add_offset(width).sub_width(width) } pub fn used_width(&self) -> usize { self.indent.block_indent + self.offset } pub fn rhs_overhead(&self, config: &Config) -> usize { config .max_width() .checked_sub(self.used_width() + self.width) .unwrap_or(0) } } pub enum ErrorKind { // Line has exceeded character limit (found, maximum) LineOverflow(usize, usize), // Line ends in whitespace TrailingWhitespace, // TO-DO or FIX-ME item without an issue number BadIssue(Issue), } impl fmt::Display for ErrorKind { fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> { match *self { ErrorKind::LineOverflow(found, maximum) => write!( fmt, "line exceeded maximum width (maximum: {}, found: {})", maximum, found ), ErrorKind::TrailingWhitespace => write!(fmt, "left behind trailing whitespace"), ErrorKind::BadIssue(issue) => write!(fmt, "found {}", issue), } } } // Formatting errors that are identified *after* rustfmt has run. pub struct FormattingError { line: usize, kind: ErrorKind, is_comment: bool, line_buffer: String, } impl FormattingError { fn msg_prefix(&self) -> &str { match self.kind { ErrorKind::LineOverflow(..) | ErrorKind::TrailingWhitespace => "error:", ErrorKind::BadIssue(_) => "WARNING:", } } fn msg_suffix(&self) -> &str { match self.kind { ErrorKind::LineOverflow(..) if self.is_comment => { "use `error_on_line_overflow_comments = false` to suppress \ the warning against line comments\n" } _ => "", } } // (space, target) pub fn format_len(&self) -> (usize, usize) { match self.kind { ErrorKind::LineOverflow(found, max) => (max, found - max), ErrorKind::TrailingWhitespace => { let trailing_ws_len = self.line_buffer .chars() .rev() .take_while(|c| c.is_whitespace()) .count(); (self.line_buffer.len() - trailing_ws_len, trailing_ws_len) } _ => (0, 0), // unreachable } } } pub struct FormatReport { // Maps stringified file paths to their associated formatting errors. file_error_map: HashMap>, } impl FormatReport { fn new() -> FormatReport { FormatReport { file_error_map: HashMap::new(), } } pub fn warning_count(&self) -> usize { self.file_error_map .iter() .map(|(_, errors)| errors.len()) .fold(0, |acc, x| acc + x) } pub fn has_warnings(&self) -> bool { self.warning_count() > 0 } pub fn print_warnings_fancy( &self, mut t: Box>, ) -> Result<(), term::Error> { for (file, errors) in &self.file_error_map { for error in errors { let prefix_space_len = error.line.to_string().len(); let prefix_spaces: String = repeat(" ").take(1 + prefix_space_len).collect(); // First line: the overview of error t.fg(term::color::RED)?; t.attr(term::Attr::Bold)?; write!(t, "{} ", error.msg_prefix())?; t.reset()?; t.attr(term::Attr::Bold)?; write!(t, "{}\n", error.kind)?; // Second line: file info write!(t, "{}--> ", &prefix_spaces[1..])?; t.reset()?; write!(t, "{}:{}\n", file, error.line)?; // Third to fifth lines: show the line which triggered error, if available. if !error.line_buffer.is_empty() { let (space_len, target_len) = error.format_len(); t.attr(term::Attr::Bold)?; write!(t, "{}|\n{} | ", prefix_spaces, error.line)?; t.reset()?; write!(t, "{}\n", error.line_buffer)?; t.attr(term::Attr::Bold)?; write!(t, "{}| ", prefix_spaces)?; t.fg(term::color::RED)?; write!(t, "{}\n", target_str(space_len, target_len))?; t.reset()?; } // The last line: show note if available. let msg_suffix = error.msg_suffix(); if !msg_suffix.is_empty() { t.attr(term::Attr::Bold)?; write!(t, "{}= note: ", prefix_spaces)?; t.reset()?; write!(t, "{}\n", error.msg_suffix())?; } else { write!(t, "\n")?; } t.reset()?; } } if !self.file_error_map.is_empty() { t.attr(term::Attr::Bold)?; write!(t, "warning: ")?; t.reset()?; write!( t, "rustfmt may have failed to format. See previous {} errors.\n\n", self.warning_count(), )?; } Ok(()) } } fn target_str(space_len: usize, target_len: usize) -> String { let empty_line: String = repeat(" ").take(space_len).collect(); let overflowed: String = repeat("^").take(target_len).collect(); empty_line + &overflowed } impl fmt::Display for FormatReport { // Prints all the formatting errors. fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> { for (file, errors) in &self.file_error_map { for error in errors { let prefix_space_len = error.line.to_string().len(); let prefix_spaces: String = repeat(" ").take(1 + prefix_space_len).collect(); let error_line_buffer = if error.line_buffer.is_empty() { String::from(" ") } else { let (space_len, target_len) = error.format_len(); format!( "{}|\n{} | {}\n{}| {}", prefix_spaces, error.line, error.line_buffer, prefix_spaces, target_str(space_len, target_len) ) }; let error_info = format!("{} {}", error.msg_prefix(), error.kind); let file_info = format!("{}--> {}:{}", &prefix_spaces[1..], file, error.line); let msg_suffix = error.msg_suffix(); let note = if msg_suffix.is_empty() { String::new() } else { format!("{}note= ", prefix_spaces) }; write!( fmt, "{}\n{}\n{}\n{}{}\n", error_info, file_info, error_line_buffer, note, error.msg_suffix() )?; } } if !self.file_error_map.is_empty() { write!( fmt, "warning: rustfmt may have failed to format. See previous {} errors.\n", self.warning_count(), )?; } Ok(()) } } // Formatting which depends on the AST. fn format_ast( krate: &ast::Crate, parse_session: &mut ParseSess, main_file: &Path, config: &Config, mut after_file: F, ) -> Result<(FileMap, bool), io::Error> where F: FnMut(&str, &mut StringBuffer) -> Result, { let mut result = FileMap::new(); // diff mode: check if any files are differing let mut has_diff = false; // We always skip children for the "Plain" write mode, since there is // nothing to distinguish the nested module contents. let skip_children = config.skip_children() || config.write_mode() == config::WriteMode::Plain; for (path, module) in modules::list_files(krate, parse_session.codemap()) { if skip_children && path.as_path() != main_file { continue; } let path_str = path.to_str().unwrap(); if config.verbose() { println!("Formatting {}", path_str); } let mut visitor = FmtVisitor::from_codemap(parse_session, config); let filemap = visitor.codemap.lookup_char_pos(module.inner.lo()).file; // Format inner attributes if available. if !krate.attrs.is_empty() && path == main_file { visitor.visit_attrs(&krate.attrs, ast::AttrStyle::Inner); } else { visitor.last_pos = filemap.start_pos; } visitor.format_separate_mod(module, &*filemap); has_diff |= after_file(path_str, &mut visitor.buffer)?; result.push((path_str.to_owned(), visitor.buffer)); } Ok((result, has_diff)) } // Formatting done on a char by char or line by line basis. // FIXME(#209) warn on bad license // FIXME(#20) other stuff for parity with make tidy fn format_lines(text: &mut StringBuffer, name: &str, config: &Config, report: &mut FormatReport) { // Iterate over the chars in the file map. let mut trims = vec![]; let mut last_wspace: Option = None; let mut line_len = 0; let mut cur_line = 1; let mut newline_count = 0; let mut errors = vec![]; let mut issue_seeker = BadIssueSeeker::new(config.report_todo(), config.report_fixme()); let mut prev_char: Option = None; let mut is_comment = false; let mut line_buffer = String::with_capacity(config.max_width() * 2); for (c, b) in text.chars() { if c == '\r' { continue; } let format_line = config.file_lines().contains_line(name, cur_line as usize); if format_line { // Add warnings for bad todos/ fixmes if let Some(issue) = issue_seeker.inspect(c) { errors.push(FormattingError { line: cur_line, kind: ErrorKind::BadIssue(issue), is_comment: false, line_buffer: String::new(), }); } } if c == '\n' { if format_line { // Check for (and record) trailing whitespace. if let Some(lw) = last_wspace { trims.push((cur_line, lw, b, line_buffer.clone())); line_len -= 1; } // Check for any line width errors we couldn't correct. let report_error_on_line_overflow = config.error_on_line_overflow() && (config.error_on_line_overflow_comments() || !is_comment); if report_error_on_line_overflow && line_len > config.max_width() { errors.push(FormattingError { line: cur_line, kind: ErrorKind::LineOverflow(line_len, config.max_width()), is_comment: is_comment, line_buffer: line_buffer.clone(), }); } } line_len = 0; cur_line += 1; newline_count += 1; last_wspace = None; prev_char = None; is_comment = false; line_buffer.clear(); } else { newline_count = 0; line_len += 1; if c.is_whitespace() { if last_wspace.is_none() { last_wspace = Some(b); } } else if c == '/' { if let Some('/') = prev_char { is_comment = true; } last_wspace = None; } else { last_wspace = None; } prev_char = Some(c); line_buffer.push(c); } } if newline_count > 1 { debug!("track truncate: {} {}", text.len, newline_count); let line = text.len - newline_count + 1; text.truncate(line); } for &(l, _, _, ref b) in &trims { errors.push(FormattingError { line: l, kind: ErrorKind::TrailingWhitespace, is_comment: false, line_buffer: b.clone(), }); } report.file_error_map.insert(name.to_owned(), errors); } fn parse_input( input: Input, parse_session: &ParseSess, ) -> Result> { let result = match input { Input::File(file) => { let mut parser = parse::new_parser_from_file(parse_session, &file); parser.cfg_mods = false; parser.parse_crate_mod() } Input::Text(text) => { let mut parser = parse::new_parser_from_source_str(parse_session, "stdin".to_owned(), text); parser.cfg_mods = false; parser.parse_crate_mod() } }; match result { Ok(c) => { if parse_session.span_diagnostic.has_errors() { // Bail out if the parser recovered from an error. Err(None) } else { Ok(c) } } Err(e) => Err(Some(e)), } } pub fn format_input( input: Input, config: &Config, mut out: Option<&mut T>, ) -> Result<(Summary, FileMap, FormatReport), (io::Error, Summary)> { let mut summary = Summary::default(); if config.disable_all_formatting() { // When the input is from stdin, echo back the input. if let Input::Text(ref buf) = input { if let Err(e) = io::stdout().write_all(buf.as_bytes()) { return Err((e, summary)); } } return Ok((summary, FileMap::new(), FormatReport::new())); } let codemap = Rc::new(CodeMap::new(FilePathMapping::empty())); let tty_handler = Handler::with_tty_emitter(ColorConfig::Auto, true, false, Some(codemap.clone())); let mut parse_session = ParseSess::with_span_handler(tty_handler, codemap.clone()); let main_file = match input { Input::File(ref file) => file.clone(), Input::Text(..) => PathBuf::from("stdin"), }; let krate = match parse_input(input, &parse_session) { Ok(krate) => krate, Err(diagnostic) => { if let Some(mut diagnostic) = diagnostic { diagnostic.emit(); } summary.add_parsing_error(); return Ok((summary, FileMap::new(), FormatReport::new())); } }; if parse_session.span_diagnostic.has_errors() { summary.add_parsing_error(); } // Suppress error output after parsing. let silent_emitter = Box::new(EmitterWriter::new( Box::new(Vec::new()), Some(codemap.clone()), )); parse_session.span_diagnostic = Handler::with_emitter(true, false, silent_emitter); let mut report = FormatReport::new(); match format_ast( &krate, &mut parse_session, &main_file, config, |file_name, file| { // For some reason, the codemap does not include terminating // newlines so we must add one on for each file. This is sad. filemap::append_newline(file); format_lines(file, file_name, config, &mut report); if let Some(ref mut out) = out { return filemap::write_file(file, file_name, out, config); } Ok(false) }, ) { Ok((file_map, has_diff)) => { if report.has_warnings() { summary.add_formatting_error(); } if has_diff { summary.add_diff(); } Ok((summary, file_map, report)) } Err(e) => Err((e, summary)), } } #[derive(Debug)] pub enum Input { File(PathBuf), Text(String), } pub fn run(input: Input, config: &Config) -> Summary { let out = &mut stdout(); output_header(out, config.write_mode()).ok(); match format_input(input, config, Some(out)) { Ok((summary, _, report)) => { output_footer(out, config.write_mode()).ok(); if report.has_warnings() { match term::stderr() { Some(ref t) if isatty() && t.supports_color() => { match report.print_warnings_fancy(term::stderr().unwrap()) { Ok(..) => (), Err(..) => panic!("Unable to write to stderr: {}", report), } } _ => msg!("{}", report), } } summary } Err((msg, mut summary)) => { msg!("Error writing files: {}", msg); summary.add_operational_error(); summary } } } #[cfg(test)] mod test { use super::*; #[test] fn indent_add_sub() { let indent = Indent::new(4, 8) + Indent::new(8, 12); assert_eq!(12, indent.block_indent); assert_eq!(20, indent.alignment); let indent = indent - Indent::new(4, 4); assert_eq!(8, indent.block_indent); assert_eq!(16, indent.alignment); } #[test] fn indent_add_sub_alignment() { let indent = Indent::new(4, 8) + 4; assert_eq!(4, indent.block_indent); assert_eq!(12, indent.alignment); let indent = indent - 4; assert_eq!(4, indent.block_indent); assert_eq!(8, indent.alignment); } #[test] fn indent_to_string_spaces() { let config = Config::default(); let indent = Indent::new(4, 8); // 12 spaces assert_eq!(" ", indent.to_string(&config)); } #[test] fn indent_to_string_hard_tabs() { let mut config = Config::default(); config.set().hard_tabs(true); let indent = Indent::new(8, 4); // 2 tabs + 4 spaces assert_eq!("\t\t ", indent.to_string(&config)); } #[test] fn shape_visual_indent() { let config = Config::default(); let indent = Indent::new(4, 8); let shape = Shape::legacy(config.max_width(), indent); let shape = shape.visual_indent(20); assert_eq!(config.max_width(), shape.width); assert_eq!(4, shape.indent.block_indent); assert_eq!(28, shape.indent.alignment); assert_eq!(28, shape.offset); } #[test] fn shape_block_indent_without_alignment() { let config = Config::default(); let indent = Indent::new(4, 0); let shape = Shape::legacy(config.max_width(), indent); let shape = shape.block_indent(20); assert_eq!(config.max_width(), shape.width); assert_eq!(24, shape.indent.block_indent); assert_eq!(0, shape.indent.alignment); assert_eq!(0, shape.offset); } #[test] fn shape_block_indent_with_alignment() { let config = Config::default(); let indent = Indent::new(4, 8); let shape = Shape::legacy(config.max_width(), indent); let shape = shape.block_indent(20); assert_eq!(config.max_width(), shape.width); assert_eq!(4, shape.indent.block_indent); assert_eq!(28, shape.indent.alignment); assert_eq!(28, shape.offset); } }