// High level formatting functions. use std::collections::HashMap; use std::io::{self, Write}; use std::time::{Duration, Instant}; use rustc_ast::ast; use rustc_span::Span; use self::newline_style::apply_newline_style; use crate::comment::{CharClasses, FullCodeCharKind}; use crate::config::{Config, FileName, Verbosity}; use crate::formatting::generated::is_generated_file; use crate::modules::Module; use crate::parse::parser::{DirectoryOwnership, Parser, ParserError}; use crate::parse::session::ParseSess; use crate::utils::{contains_skip, count_newlines}; use crate::visitor::FmtVisitor; use crate::{modules, source_file, ErrorKind, FormatReport, Input, Session}; mod generated; mod newline_style; // A map of the files of a crate, with their new content pub(crate) type SourceFile = Vec; pub(crate) type FileRecord = (FileName, String); impl<'b, T: Write + 'b> Session<'b, T> { pub(crate) fn format_input_inner( &mut self, input: Input, is_macro_def: bool, ) -> Result { if !self.config.version_meets_requirement() { return Err(ErrorKind::VersionMismatch); } rustc_span::create_session_if_not_set_then(self.config.edition().into(), |_| { if self.config.disable_all_formatting() { // When the input is from stdin, echo back the input. return match input { Input::Text(ref buf) => echo_back_stdin(buf), _ => Ok(FormatReport::new()), }; } let config = &self.config.clone(); let format_result = format_project(input, config, self, is_macro_def); format_result.map(|report| { self.errors.add(&report.internal.borrow().1); report }) }) } } /// Determine if a module should be skipped. True if the module should be skipped, false otherwise. fn should_skip_module( config: &Config, context: &FormatContext<'_, T>, input_is_stdin: bool, main_file: &FileName, path: &FileName, module: &Module<'_>, ) -> bool { if contains_skip(module.attrs()) { return true; } if config.skip_children() && path != main_file { return true; } if !input_is_stdin && context.ignore_file(path) { return true; } // FIXME(calebcartwright) - we need to determine how we'll handle the // `format_generated_files` option with stdin based input. if !input_is_stdin && !config.format_generated_files() { let source_file = context.parse_session.span_to_file_contents(module.span); let src = source_file.src.as_ref().expect("SourceFile without src"); if is_generated_file(src) { return true; } } false } fn echo_back_stdin(input: &str) -> Result { if let Err(e) = io::stdout().write_all(input.as_bytes()) { return Err(From::from(e)); } Ok(FormatReport::new()) } // Format an entire crate (or subset of the module tree). fn format_project( input: Input, config: &Config, handler: &mut T, is_macro_def: bool, ) -> Result { let mut timer = Timer::start(); let main_file = input.file_name(); let input_is_stdin = main_file == FileName::Stdin; let parse_session = ParseSess::new(config)?; if config.skip_children() && parse_session.ignore_file(&main_file) { return Ok(FormatReport::new()); } // Parse the crate. let mut report = FormatReport::new(); let directory_ownership = input.to_directory_ownership(); let krate = match Parser::parse_crate(input, &parse_session) { Ok(krate) => krate, // Surface parse error via Session (errors are merged there from report) Err(e) => { let forbid_verbose = input_is_stdin || e != ParserError::ParsePanicError; should_emit_verbose(forbid_verbose, config, || { eprintln!("The Rust parser panicked"); }); report.add_parsing_error(); return Ok(report); } }; let mut context = FormatContext::new(&krate, report, parse_session, config, handler); let files = modules::ModResolver::new( &context.parse_session, directory_ownership.unwrap_or(DirectoryOwnership::UnownedViaBlock), !input_is_stdin && !config.skip_children(), ) .visit_crate(&krate)? .into_iter() .filter(|(path, module)| { input_is_stdin || !should_skip_module(config, &context, input_is_stdin, &main_file, path, module) }) .collect::>(); timer = timer.done_parsing(); // Suppress error output if we have to do any further parsing. context.parse_session.set_silent_emitter(); for (path, module) in files { if input_is_stdin && contains_skip(module.attrs()) { return echo_back_stdin( context .parse_session .snippet_provider(module.span) .entire_snippet(), ); } should_emit_verbose(input_is_stdin, config, || println!("Formatting {}", path)); context.format_file(path, &module, is_macro_def)?; } timer = timer.done_formatting(); should_emit_verbose(input_is_stdin, config, || { println!( "Spent {0:.3} secs in the parsing phase, and {1:.3} secs in the formatting phase", timer.get_parse_time(), timer.get_format_time(), ) }); Ok(context.report) } // Used for formatting files. struct FormatContext<'a, T: FormatHandler> { krate: &'a ast::Crate, report: FormatReport, parse_session: ParseSess, config: &'a Config, handler: &'a mut T, } impl<'a, T: FormatHandler + 'a> FormatContext<'a, T> { fn new( krate: &'a ast::Crate, report: FormatReport, parse_session: ParseSess, config: &'a Config, handler: &'a mut T, ) -> Self { FormatContext { krate, report, parse_session, config, handler, } } fn ignore_file(&self, path: &FileName) -> bool { self.parse_session.ignore_file(path) } // Formats a single file/module. fn format_file( &mut self, path: FileName, module: &Module<'_>, is_macro_def: bool, ) -> Result<(), ErrorKind> { let snippet_provider = self.parse_session.snippet_provider(module.span); let mut visitor = FmtVisitor::from_parse_sess( &self.parse_session, self.config, &snippet_provider, self.report.clone(), ); visitor.skip_context.update_with_attrs(&self.krate.attrs); visitor.is_macro_def = is_macro_def; visitor.last_pos = snippet_provider.start_pos(); visitor.skip_empty_lines(snippet_provider.end_pos()); visitor.format_separate_mod(module, snippet_provider.end_pos()); debug_assert_eq!( visitor.line_number, count_newlines(&visitor.buffer), "failed in format_file visitor.buffer:\n {:?}", &visitor.buffer ); // For some reason, the source_map does not include terminating // newlines so we must add one on for each file. This is sad. source_file::append_newline(&mut visitor.buffer); format_lines( &mut visitor.buffer, &path, &visitor.skipped_range.borrow(), self.config, &self.report, ); apply_newline_style( self.config.newline_style(), &mut visitor.buffer, snippet_provider.entire_snippet(), ); if visitor.macro_rewrite_failure { self.report.add_macro_format_failure(); } self.report .add_non_formatted_ranges(visitor.skipped_range.borrow().clone()); self.handler.handle_formatted_file( &self.parse_session, path, visitor.buffer.to_owned(), &mut self.report, ) } } // Handle the results of formatting. trait FormatHandler { fn handle_formatted_file( &mut self, parse_session: &ParseSess, path: FileName, result: String, report: &mut FormatReport, ) -> Result<(), ErrorKind>; } impl<'b, T: Write + 'b> FormatHandler for Session<'b, T> { // Called for each formatted file. fn handle_formatted_file( &mut self, parse_session: &ParseSess, path: FileName, result: String, report: &mut FormatReport, ) -> Result<(), ErrorKind> { if let Some(ref mut out) = self.out { match source_file::write_file( Some(parse_session), &path, &result, out, &mut *self.emitter, self.config.newline_style(), ) { Ok(ref result) if result.has_diff => report.add_diff(), Err(e) => { // Create a new error with path_str to help users see which files failed let err_msg = format!("{path}: {e}"); return Err(io::Error::new(e.kind(), err_msg).into()); } _ => {} } } self.source_file.push((path, result)); Ok(()) } } pub(crate) struct FormattingError { pub(crate) line: usize, pub(crate) kind: ErrorKind, is_comment: bool, is_string: bool, pub(crate) line_buffer: String, } impl FormattingError { pub(crate) fn from_span( span: Span, parse_sess: &ParseSess, kind: ErrorKind, ) -> FormattingError { FormattingError { line: parse_sess.line_of_byte_pos(span.lo()), is_comment: kind.is_comment(), kind, is_string: false, line_buffer: parse_sess.span_to_first_line_string(span), } } pub(crate) fn is_internal(&self) -> bool { match self.kind { ErrorKind::LineOverflow(..) | ErrorKind::TrailingWhitespace | ErrorKind::IoError(_) | ErrorKind::ParseError | ErrorKind::LostComment => true, _ => false, } } pub(crate) fn msg_suffix(&self) -> &str { if self.is_comment || self.is_string { "set `error_on_unformatted = false` to suppress \ the warning against comments or string literals\n" } else { "" } } // (space, target) pub(crate) fn format_len(&self) -> (usize, usize) { match self.kind { ErrorKind::LineOverflow(found, max) => (max, found - max), ErrorKind::TrailingWhitespace | ErrorKind::DeprecatedAttr | ErrorKind::BadAttr | ErrorKind::LostComment => { let trailing_ws_start = self .line_buffer .rfind(|c: char| !c.is_whitespace()) .map(|pos| pos + 1) .unwrap_or(0); ( trailing_ws_start, self.line_buffer.len() - trailing_ws_start, ) } _ => unreachable!(), } } } pub(crate) type FormatErrorMap = HashMap>; #[derive(Default, Debug, PartialEq)] pub(crate) struct ReportedErrors { // Encountered e.g., an IO error. pub(crate) has_operational_errors: bool, // Failed to reformat code because of parsing errors. pub(crate) has_parsing_errors: bool, // Code is valid, but it is impossible to format it properly. pub(crate) has_formatting_errors: bool, // Code contains macro call that was unable to format. pub(crate) has_macro_format_failure: bool, // Failed an opt-in checking. pub(crate) has_check_errors: bool, /// Formatted code differs from existing code (--check only). pub(crate) has_diff: bool, /// Formatted code missed something, like lost comments or extra trailing space pub(crate) has_unformatted_code_errors: bool, } impl ReportedErrors { /// Combine two summaries together. pub(crate) fn add(&mut self, other: &ReportedErrors) { self.has_operational_errors |= other.has_operational_errors; self.has_parsing_errors |= other.has_parsing_errors; self.has_formatting_errors |= other.has_formatting_errors; self.has_macro_format_failure |= other.has_macro_format_failure; self.has_check_errors |= other.has_check_errors; self.has_diff |= other.has_diff; self.has_unformatted_code_errors |= other.has_unformatted_code_errors; } } #[derive(Clone, Copy, Debug)] enum Timer { Disabled, Initialized(Instant), DoneParsing(Instant, Instant), DoneFormatting(Instant, Instant, Instant), } impl Timer { fn start() -> Timer { if cfg!(target_arch = "wasm32") { Timer::Disabled } else { Timer::Initialized(Instant::now()) } } fn done_parsing(self) -> Self { match self { Timer::Disabled => Timer::Disabled, Timer::Initialized(init_time) => Timer::DoneParsing(init_time, Instant::now()), _ => panic!("Timer can only transition to DoneParsing from Initialized state"), } } fn done_formatting(self) -> Self { match self { Timer::Disabled => Timer::Disabled, Timer::DoneParsing(init_time, parse_time) => { Timer::DoneFormatting(init_time, parse_time, Instant::now()) } _ => panic!("Timer can only transition to DoneFormatting from DoneParsing state"), } } /// Returns the time it took to parse the source files in seconds. fn get_parse_time(&self) -> f32 { match *self { Timer::Disabled => panic!("this platform cannot time execution"), Timer::DoneParsing(init, parse_time) | Timer::DoneFormatting(init, parse_time, _) => { // This should never underflow since `Instant::now()` guarantees monotonicity. Self::duration_to_f32(parse_time.duration_since(init)) } Timer::Initialized(..) => unreachable!(), } } /// Returns the time it took to go from the parsed AST to the formatted output. Parsing time is /// not included. fn get_format_time(&self) -> f32 { match *self { Timer::Disabled => panic!("this platform cannot time execution"), Timer::DoneFormatting(_init, parse_time, format_time) => { Self::duration_to_f32(format_time.duration_since(parse_time)) } Timer::DoneParsing(..) | Timer::Initialized(..) => unreachable!(), } } fn duration_to_f32(d: Duration) -> f32 { d.as_secs() as f32 + d.subsec_nanos() as f32 / 1_000_000_000f32 } } // Formatting done on a char by char or line by line basis. // FIXME(#20): other stuff for parity with make tidy. fn format_lines( text: &mut String, name: &FileName, skipped_range: &[(usize, usize)], config: &Config, report: &FormatReport, ) { let mut formatter = FormatLines::new(name, skipped_range, config); formatter.iterate(text); if formatter.newline_count > 1 { debug!("track truncate: {} {}", text.len(), formatter.newline_count); let line = text.len() - formatter.newline_count + 1; text.truncate(line); } report.append(name.clone(), formatter.errors); } struct FormatLines<'a> { name: &'a FileName, skipped_range: &'a [(usize, usize)], last_was_space: bool, line_len: usize, cur_line: usize, newline_count: usize, errors: Vec, line_buffer: String, current_line_contains_string_literal: bool, format_line: bool, config: &'a Config, } impl<'a> FormatLines<'a> { fn new( name: &'a FileName, skipped_range: &'a [(usize, usize)], config: &'a Config, ) -> FormatLines<'a> { FormatLines { name, skipped_range, last_was_space: false, line_len: 0, cur_line: 1, newline_count: 0, errors: vec![], line_buffer: String::with_capacity(config.max_width() * 2), current_line_contains_string_literal: false, format_line: config.file_lines().contains_line(name, 1), config, } } // Iterate over the chars in the file map. fn iterate(&mut self, text: &mut String) { for (kind, c) in CharClasses::new(text.chars()) { if c == '\r' { continue; } if c == '\n' { self.new_line(kind); } else { self.char(c, kind); } } } fn new_line(&mut self, kind: FullCodeCharKind) { if self.format_line { // Check for (and record) trailing whitespace. if self.last_was_space { if self.should_report_error(kind, &ErrorKind::TrailingWhitespace) && !self.is_skipped_line() { self.push_err( ErrorKind::TrailingWhitespace, kind.is_comment(), kind.is_string(), ); } self.line_len -= 1; } // Check for any line width errors we couldn't correct. let error_kind = ErrorKind::LineOverflow(self.line_len, self.config.max_width()); if self.line_len > self.config.max_width() && !self.is_skipped_line() && self.should_report_error(kind, &error_kind) { let is_string = self.current_line_contains_string_literal; self.push_err(error_kind, kind.is_comment(), is_string); } } self.line_len = 0; self.cur_line += 1; self.format_line = self .config .file_lines() .contains_line(self.name, self.cur_line); self.newline_count += 1; self.last_was_space = false; self.line_buffer.clear(); self.current_line_contains_string_literal = false; } fn char(&mut self, c: char, kind: FullCodeCharKind) { self.newline_count = 0; self.line_len += if c == '\t' { self.config.tab_spaces() } else { 1 }; self.last_was_space = c.is_whitespace(); self.line_buffer.push(c); if kind.is_string() { self.current_line_contains_string_literal = true; } } fn push_err(&mut self, kind: ErrorKind, is_comment: bool, is_string: bool) { self.errors.push(FormattingError { line: self.cur_line, kind, is_comment, is_string, line_buffer: self.line_buffer.clone(), }); } fn should_report_error(&self, char_kind: FullCodeCharKind, error_kind: &ErrorKind) -> bool { let allow_error_report = if char_kind.is_comment() || self.current_line_contains_string_literal || error_kind.is_comment() { self.config.error_on_unformatted() } else { true }; match error_kind { ErrorKind::LineOverflow(..) => { self.config.error_on_line_overflow() && allow_error_report } ErrorKind::TrailingWhitespace | ErrorKind::LostComment => allow_error_report, _ => true, } } /// Returns `true` if the line with the given line number was skipped by `#[rustfmt::skip]`. fn is_skipped_line(&self) -> bool { self.skipped_range .iter() .any(|&(lo, hi)| lo <= self.cur_line && self.cur_line <= hi) } } fn should_emit_verbose(forbid_verbose_output: bool, config: &Config, f: F) where F: Fn(), { if config.verbose() == Verbosity::Verbose && !forbid_verbose_output { f(); } }