use std::borrow::Cow; use std::ops::Range; use crate::utils::{snippet_with_applicability, span_lint, span_lint_and_sugg, span_lint_and_then}; use rustc::lint::{EarlyContext, EarlyLintPass}; use rustc_errors::Applicability; use rustc_lexer::unescape::{self, EscapeError}; use rustc_parse::parser; use rustc_session::{declare_lint_pass, declare_tool_lint}; use rustc_span::symbol::Symbol; use rustc_span::{BytePos, Span}; use syntax::ast::*; use syntax::token; use syntax::tokenstream::TokenStream; declare_clippy_lint! { /// **What it does:** This lint warns when you use `println!("")` to /// print a newline. /// /// **Why is this bad?** You should use `println!()`, which is simpler. /// /// **Known problems:** None. /// /// **Example:** /// ```rust /// println!(""); /// ``` pub PRINTLN_EMPTY_STRING, style, "using `println!(\"\")` with an empty string" } declare_clippy_lint! { /// **What it does:** This lint warns when you use `print!()` with a format /// string that /// ends in a newline. /// /// **Why is this bad?** You should use `println!()` instead, which appends the /// newline. /// /// **Known problems:** None. /// /// **Example:** /// ```rust /// # let name = "World"; /// print!("Hello {}!\n", name); /// ``` /// use println!() instead /// ```rust /// # let name = "World"; /// println!("Hello {}!", name); /// ``` pub PRINT_WITH_NEWLINE, style, "using `print!()` with a format string that ends in a single newline" } declare_clippy_lint! { /// **What it does:** Checks for printing on *stdout*. The purpose of this lint /// is to catch debugging remnants. /// /// **Why is this bad?** People often print on *stdout* while debugging an /// application and might forget to remove those prints afterward. /// /// **Known problems:** Only catches `print!` and `println!` calls. /// /// **Example:** /// ```rust /// println!("Hello world!"); /// ``` pub PRINT_STDOUT, restriction, "printing on stdout" } declare_clippy_lint! { /// **What it does:** Checks for use of `Debug` formatting. The purpose of this /// lint is to catch debugging remnants. /// /// **Why is this bad?** The purpose of the `Debug` trait is to facilitate /// debugging Rust code. It should not be used in user-facing output. /// /// **Example:** /// ```rust /// # let foo = "bar"; /// println!("{:?}", foo); /// ``` pub USE_DEBUG, restriction, "use of `Debug`-based formatting" } declare_clippy_lint! { /// **What it does:** This lint warns about the use of literals as `print!`/`println!` args. /// /// **Why is this bad?** Using literals as `println!` args is inefficient /// (c.f., https://github.com/matthiaskrgr/rust-str-bench) and unnecessary /// (i.e., just put the literal in the format string) /// /// **Known problems:** Will also warn with macro calls as arguments that expand to literals /// -- e.g., `println!("{}", env!("FOO"))`. /// /// **Example:** /// ```rust /// println!("{}", "foo"); /// ``` /// use the literal without formatting: /// ```rust /// println!("foo"); /// ``` pub PRINT_LITERAL, style, "printing a literal with a format string" } declare_clippy_lint! { /// **What it does:** This lint warns when you use `writeln!(buf, "")` to /// print a newline. /// /// **Why is this bad?** You should use `writeln!(buf)`, which is simpler. /// /// **Known problems:** None. /// /// **Example:** /// ```rust /// # use std::fmt::Write; /// # let mut buf = String::new(); /// writeln!(buf, ""); /// ``` pub WRITELN_EMPTY_STRING, style, "using `writeln!(buf, \"\")` with an empty string" } declare_clippy_lint! { /// **What it does:** This lint warns when you use `write!()` with a format /// string that /// ends in a newline. /// /// **Why is this bad?** You should use `writeln!()` instead, which appends the /// newline. /// /// **Known problems:** None. /// /// **Example:** /// ```rust /// # use std::fmt::Write; /// # let mut buf = String::new(); /// # let name = "World"; /// write!(buf, "Hello {}!\n", name); /// ``` pub WRITE_WITH_NEWLINE, style, "using `write!()` with a format string that ends in a single newline" } declare_clippy_lint! { /// **What it does:** This lint warns about the use of literals as `write!`/`writeln!` args. /// /// **Why is this bad?** Using literals as `writeln!` args is inefficient /// (c.f., https://github.com/matthiaskrgr/rust-str-bench) and unnecessary /// (i.e., just put the literal in the format string) /// /// **Known problems:** Will also warn with macro calls as arguments that expand to literals /// -- e.g., `writeln!(buf, "{}", env!("FOO"))`. /// /// **Example:** /// ```rust /// # use std::fmt::Write; /// # let mut buf = String::new(); /// writeln!(buf, "{}", "foo"); /// ``` pub WRITE_LITERAL, style, "writing a literal with a format string" } declare_lint_pass!(Write => [ PRINT_WITH_NEWLINE, PRINTLN_EMPTY_STRING, PRINT_STDOUT, USE_DEBUG, PRINT_LITERAL, WRITE_WITH_NEWLINE, WRITELN_EMPTY_STRING, WRITE_LITERAL ]); impl EarlyLintPass for Write { fn check_mac(&mut self, cx: &EarlyContext<'_>, mac: &Mac) { if mac.path == sym!(println) { span_lint(cx, PRINT_STDOUT, mac.span(), "use of `println!`"); if let (Some(fmt_str), _) = check_tts(cx, &mac.args.inner_tokens(), false) { if fmt_str.symbol == Symbol::intern("") { span_lint_and_sugg( cx, PRINTLN_EMPTY_STRING, mac.span(), "using `println!(\"\")`", "replace it with", "println!()".to_string(), Applicability::MachineApplicable, ); } } } else if mac.path == sym!(print) { span_lint(cx, PRINT_STDOUT, mac.span(), "use of `print!`"); if let (Some(fmt_str), _) = check_tts(cx, &mac.args.inner_tokens(), false) { if check_newlines(&fmt_str) { span_lint_and_then( cx, PRINT_WITH_NEWLINE, mac.span(), "using `print!()` with a format string that ends in a single newline", |err| { err.multipart_suggestion( "use `println!` instead", vec![ (mac.path.span, String::from("println")), (newline_span(&fmt_str), String::new()), ], Applicability::MachineApplicable, ); }, ); } } } else if mac.path == sym!(write) { if let (Some(fmt_str), _) = check_tts(cx, &mac.args.inner_tokens(), true) { if check_newlines(&fmt_str) { span_lint_and_then( cx, WRITE_WITH_NEWLINE, mac.span(), "using `write!()` with a format string that ends in a single newline", |err| { err.multipart_suggestion( "use `writeln!()` instead", vec![ (mac.path.span, String::from("writeln")), (newline_span(&fmt_str), String::new()), ], Applicability::MachineApplicable, ); }, ) } } } else if mac.path == sym!(writeln) { if let (Some(fmt_str), expr) = check_tts(cx, &mac.args.inner_tokens(), true) { if fmt_str.symbol == Symbol::intern("") { let mut applicability = Applicability::MachineApplicable; let suggestion = expr.map_or_else( move || { applicability = Applicability::HasPlaceholders; Cow::Borrowed("v") }, move |expr| snippet_with_applicability(cx, expr.span, "v", &mut applicability), ); span_lint_and_sugg( cx, WRITELN_EMPTY_STRING, mac.span(), format!("using `writeln!({}, \"\")`", suggestion).as_str(), "replace it with", format!("writeln!({})", suggestion), applicability, ); } } } } } /// Given a format string that ends in a newline and its span, calculates the span of the /// newline. fn newline_span(fmtstr: &StrLit) -> Span { let sp = fmtstr.span; let contents = &fmtstr.symbol.as_str(); let newline_sp_hi = sp.hi() - match fmtstr.style { StrStyle::Cooked => BytePos(1), StrStyle::Raw(hashes) => BytePos((1 + hashes).into()), }; let newline_sp_len = if contents.ends_with('\n') { BytePos(1) } else if contents.ends_with(r"\n") { BytePos(2) } else { panic!("expected format string to contain a newline"); }; sp.with_lo(newline_sp_hi - newline_sp_len).with_hi(newline_sp_hi) } /// Checks the arguments of `print[ln]!` and `write[ln]!` calls. It will return a tuple of two /// `Option`s. The first `Option` of the tuple is the macro's format string. It includes /// the contents of the string, whether it's a raw string, and the span of the literal in the /// source. The second `Option` in the tuple is, in the `write[ln]!` case, the expression the /// `format_str` should be written to. /// /// Example: /// /// Calling this function on /// ```rust /// # use std::fmt::Write; /// # let mut buf = String::new(); /// # let something = "something"; /// writeln!(buf, "string to write: {}", something); /// ``` /// will return /// ```rust,ignore /// (Some("string to write: {}"), Some(buf)) /// ``` #[allow(clippy::too_many_lines)] fn check_tts<'a>(cx: &EarlyContext<'a>, tts: &TokenStream, is_write: bool) -> (Option, Option) { use fmt_macros::*; let tts = tts.clone(); let mut parser = parser::Parser::new(&cx.sess.parse_sess, tts, None, false, false, None); let mut expr: Option = None; if is_write { expr = match parser.parse_expr().map_err(|mut err| err.cancel()) { Ok(p) => Some(p.into_inner()), Err(_) => return (None, None), }; // might be `writeln!(foo)` if parser.expect(&token::Comma).map_err(|mut err| err.cancel()).is_err() { return (None, expr); } } let fmtstr = match parser.parse_str_lit() { Ok(fmtstr) => fmtstr, Err(_) => return (None, expr), }; let tmp = fmtstr.symbol.as_str(); let mut args = vec![]; let mut fmt_parser = Parser::new(&tmp, None, Vec::new(), false); while let Some(piece) = fmt_parser.next() { if !fmt_parser.errors.is_empty() { return (None, expr); } if let Piece::NextArgument(arg) = piece { if arg.format.ty == "?" { // FIXME: modify rustc's fmt string parser to give us the current span span_lint(cx, USE_DEBUG, parser.prev_span, "use of `Debug`-based formatting"); } args.push(arg); } } let lint = if is_write { WRITE_LITERAL } else { PRINT_LITERAL }; let mut idx = 0; loop { const SIMPLE: FormatSpec<'_> = FormatSpec { fill: None, align: AlignUnknown, flags: 0, precision: CountImplied, precision_span: None, width: CountImplied, width_span: None, ty: "", ty_span: None, }; if !parser.eat(&token::Comma) { return (Some(fmtstr), expr); } let token_expr = if let Ok(expr) = parser.parse_expr().map_err(|mut err| err.cancel()) { expr } else { return (Some(fmtstr), None); }; match &token_expr.kind { ExprKind::Lit(_) => { let mut all_simple = true; let mut seen = false; for arg in &args { match arg.position { ArgumentImplicitlyIs(n) | ArgumentIs(n) => { if n == idx { all_simple &= arg.format == SIMPLE; seen = true; } }, ArgumentNamed(_) => {}, } } if all_simple && seen { span_lint(cx, lint, token_expr.span, "literal with an empty format string"); } idx += 1; }, ExprKind::Assign(lhs, rhs, _) => { if let ExprKind::Lit(_) = rhs.kind { if let ExprKind::Path(_, p) = &lhs.kind { let mut all_simple = true; let mut seen = false; for arg in &args { match arg.position { ArgumentImplicitlyIs(_) | ArgumentIs(_) => {}, ArgumentNamed(name) => { if *p == name { seen = true; all_simple &= arg.format == SIMPLE; } }, } } if all_simple && seen { span_lint(cx, lint, rhs.span, "literal with an empty format string"); } } } }, _ => idx += 1, } } } /// Checks if the format string contains a single newline that terminates it. /// /// Literal and escaped newlines are both checked (only literal for raw strings). fn check_newlines(fmtstr: &StrLit) -> bool { let mut has_internal_newline = false; let mut last_was_cr = false; let mut should_lint = false; let contents = &fmtstr.symbol.as_str(); let mut cb = |r: Range, c: Result| { let c = c.unwrap(); if r.end == contents.len() && c == '\n' && !last_was_cr && !has_internal_newline { should_lint = true; } else { last_was_cr = c == '\r'; if c == '\n' { has_internal_newline = true; } } }; match fmtstr.style { StrStyle::Cooked => unescape::unescape_str(contents, &mut cb), StrStyle::Raw(_) => unescape::unescape_raw_str(contents, &mut cb), } should_lint }