mod context; use crate::edition_panic::use_panic_2021; use crate::errors; use rustc_ast::ptr::P; use rustc_ast::token; use rustc_ast::token::Delimiter; use rustc_ast::tokenstream::{DelimSpan, TokenStream}; use rustc_ast::{DelimArgs, Expr, ExprKind, MacCall, Path, PathSegment, UnOp}; use rustc_ast_pretty::pprust; use rustc_errors::PResult; use rustc_expand::base::{DummyResult, ExtCtxt, MacEager, MacResult}; use rustc_parse::parser::Parser; use rustc_span::symbol::{sym, Ident, Symbol}; use rustc_span::{Span, DUMMY_SP}; use thin_vec::thin_vec; pub fn expand_assert<'cx>( cx: &'cx mut ExtCtxt<'_>, span: Span, tts: TokenStream, ) -> Box { let Assert { cond_expr, custom_message } = match parse_assert(cx, span, tts) { Ok(assert) => assert, Err(mut err) => { err.emit(); return DummyResult::any(span); } }; // `core::panic` and `std::panic` are different macros, so we use call-site // context to pick up whichever is currently in scope. let call_site_span = cx.with_call_site_ctxt(span); let panic_path = || { if use_panic_2021(span) { // On edition 2021, we always call `$crate::panic::panic_2021!()`. Path { span: call_site_span, segments: cx .std_path(&[sym::panic, sym::panic_2021]) .into_iter() .map(|ident| PathSegment::from_ident(ident)) .collect(), tokens: None, } } else { // Before edition 2021, we call `panic!()` unqualified, // such that it calls either `std::panic!()` or `core::panic!()`. Path::from_ident(Ident::new(sym::panic, call_site_span)) } }; // Simply uses the user provided message instead of generating custom outputs let expr = if let Some(tokens) = custom_message { let then = cx.expr( call_site_span, ExprKind::MacCall(P(MacCall { path: panic_path(), args: P(DelimArgs { dspan: DelimSpan::from_single(call_site_span), delim: Delimiter::Parenthesis, tokens, }), })), ); expr_if_not(cx, call_site_span, cond_expr, then, None) } // If `generic_assert` is enabled, generates rich captured outputs // // FIXME(c410-f3r) See https://github.com/rust-lang/rust/issues/96949 else if cx.ecfg.features.generic_assert { context::Context::new(cx, call_site_span).build(cond_expr, panic_path()) } // If `generic_assert` is not enabled, only outputs a literal "assertion failed: ..." // string else { // Pass our own message directly to $crate::panicking::panic(), // because it might contain `{` and `}` that should always be // passed literally. let then = cx.expr_call_global( call_site_span, cx.std_path(&[sym::panicking, sym::panic]), thin_vec![cx.expr_str( DUMMY_SP, Symbol::intern(&format!( "assertion failed: {}", pprust::expr_to_string(&cond_expr) )), )], ); expr_if_not(cx, call_site_span, cond_expr, then, None) }; MacEager::expr(expr) } struct Assert { cond_expr: P, custom_message: Option, } // if !{ ... } { ... } else { ... } fn expr_if_not( cx: &ExtCtxt<'_>, span: Span, cond: P, then: P, els: Option>, ) -> P { cx.expr_if(span, cx.expr(span, ExprKind::Unary(UnOp::Not, cond)), then, els) } fn parse_assert<'a>(cx: &mut ExtCtxt<'a>, sp: Span, stream: TokenStream) -> PResult<'a, Assert> { let mut parser = cx.new_parser_from_tts(stream); if parser.token == token::Eof { return Err(cx.create_err(errors::AssertRequiresBoolean { span: sp })); } let cond_expr = parser.parse_expr()?; // Some crates use the `assert!` macro in the following form (note extra semicolon): // // assert!( // my_function(); // ); // // Emit an error about semicolon and suggest removing it. if parser.token == token::Semi { cx.emit_err(errors::AssertRequiresExpression { span: sp, token: parser.token.span }); parser.bump(); } // Some crates use the `assert!` macro in the following form (note missing comma before // message): // // assert!(true "error message"); // // Emit an error and suggest inserting a comma. let custom_message = if let token::Literal(token::Lit { kind: token::Str, .. }) = parser.token.kind { let comma = parser.prev_token.span.shrink_to_hi(); cx.emit_err(errors::AssertMissingComma { span: parser.token.span, comma }); parse_custom_message(&mut parser) } else if parser.eat(&token::Comma) { parse_custom_message(&mut parser) } else { None }; if parser.token != token::Eof { return parser.unexpected(); } Ok(Assert { cond_expr, custom_message }) } fn parse_custom_message(parser: &mut Parser<'_>) -> Option { let ts = parser.parse_tokens(); if !ts.is_empty() { Some(ts) } else { None } }