1.0.7/tests/test_precedence.rs - platform/external/rust/crates/syn - Git at Google

 #![cfg(not(syn_disable_nightly_tests))]
 #![recursion_limit = "1024"]
 #![feature(rustc_private)]

 //! The tests in this module do the following:
 //!
 //! 1. Parse a given expression in both `syn` and `libsyntax`.
 //! 2. Fold over the expression adding brackets around each subexpression (with
 //!    some complications - see the `syn_brackets` and `libsyntax_brackets`
 //!    methods).
 //! 3. Serialize the `syn` expression back into a string, and re-parse it with
 //!    `libsyntax`.
 //! 4. Respan all of the expressions, replacing the spans with the default
 //!    spans.
 //! 5. Compare the expressions with one another, if they are not equal fail.

 extern crate rustc_data_structures;
 extern crate smallvec;
 extern crate syntax;
 extern crate syntax_pos;

 mod features;

 use quote::quote;
 use rayon::iter::{IntoParallelIterator, ParallelIterator};
 use regex::Regex;
 use smallvec::smallvec;
 use syntax::ast;
 use syntax::ptr::P;
 use syntax_pos::edition::Edition;
 use walkdir::{DirEntry, WalkDir};

 use std::fs::File;
 use std::io::Read;
 use std::process;
 use std::sync::atomic::{AtomicUsize, Ordering};

 use common::eq::SpanlessEq;
 use common::parse;

 #[macro_use]
 mod macros;

 #[allow(dead_code)]
 mod common;

 mod repo;

 /// Test some pre-set expressions chosen by us.
 #[test]
 fn test_simple_precedence() {
     const EXPRS: &[&str] = &[
         "1 + 2 * 3 + 4",
         "1 + 2 * ( 3 + 4 )",
         "{ for i in r { } *some_ptr += 1; }",
         "{ loop { break 5; } }",
         "{ if true { () }.mthd() }",
         "{ for i in unsafe { 20 } { } }",
     ];

     let mut failed = 0;

     for input in EXPRS {
         let expr = if let Some(expr) = parse::syn_expr(input) {
             expr
         } else {
             failed += 1;
             continue;
         };

         let pf = match test_expressions(vec![expr]) {
             (1, 0) => "passed",
             (0, 1) => {
                 failed += 1;
                 "failed"
             }
             _ => unreachable!(),
         };
         errorf!("=== {}: {}\n", input, pf);
     }

     if failed > 0 {
         panic!("Failed {} tests", failed);
     }
 }

 /// Test expressions from rustc, like in `test_round_trip`.
 #[test]
 #[cfg_attr(target_os = "windows", ignore = "requires nix .sh")]
 fn test_rustc_precedence() {
     repo::clone_rust();
     let abort_after = common::abort_after();
     if abort_after == 0 {
         panic!("Skipping all precedence tests");
     }

     let passed = AtomicUsize::new(0);
     let failed = AtomicUsize::new(0);

     // 2018 edition is hard
     let edition_regex = Regex::new(r"\b(async|try)[!(]").unwrap();

     WalkDir::new("tests/rust")
         .sort_by(|a, b| a.file_name().cmp(b.file_name()))
         .into_iter()
         .filter_entry(repo::base_dir_filter)
         .collect::<Result<Vec<DirEntry>, walkdir::Error>>()
         .unwrap()
         .into_par_iter()
         .for_each(|entry| {
             let path = entry.path();
             if path.is_dir() {
                 return;
             }

             // Our version of `libsyntax` can't parse this tests
             if path
                 .to_str()
                 .unwrap()
                 .ends_with("optional_comma_in_match_arm.rs")
             {
                 return;
             }

             let mut file = File::open(path).unwrap();
             let mut content = String::new();
             file.read_to_string(&mut content).unwrap();
             let content = edition_regex.replace_all(&content, "_$0");

             let (l_passed, l_failed) = match syn::parse_file(&content) {
                 Ok(file) => {
                     let exprs = collect_exprs(file);
                     test_expressions(exprs)
                 }
                 Err(msg) => {
                     errorf!("syn failed to parse\n{:?}\n", msg);
                     (0, 1)
                 }
             };

             errorf!(
                 "=== {}: {} passed | {} failed\n",
                 path.display(),
                 l_passed,
                 l_failed
             );

             passed.fetch_add(l_passed, Ordering::SeqCst);
             let prev_failed = failed.fetch_add(l_failed, Ordering::SeqCst);

             if prev_failed + l_failed >= abort_after {
                 process::exit(1);
             }
         });

     let passed = passed.load(Ordering::SeqCst);
     let failed = failed.load(Ordering::SeqCst);

     errorf!("\n===== Precedence Test Results =====\n");
     errorf!("{} passed | {} failed\n", passed, failed);

     if failed > 0 {
         panic!("{} failures", failed);
     }
 }

 fn test_expressions(exprs: Vec<syn::Expr>) -> (usize, usize) {
     let mut passed = 0;
     let mut failed = 0;

     syntax::with_globals(Edition::Edition2018, || {
         for expr in exprs {
             let raw = quote!(#expr).to_string();

             let libsyntax_ast = if let Some(e) = libsyntax_parse_and_rewrite(&raw) {
                 e
             } else {
                 failed += 1;
                 errorf!("\nFAIL - libsyntax failed to parse raw\n");
                 continue;
             };

             let syn_expr = syn_brackets(expr);
             let syn_ast = if let Some(e) = parse::libsyntax_expr(&quote!(#syn_expr).to_string()) {
                 e
             } else {
                 failed += 1;
                 errorf!("\nFAIL - libsyntax failed to parse bracketed\n");
                 continue;
             };

             if SpanlessEq::eq(&syn_ast, &libsyntax_ast) {
                 passed += 1;
             } else {
                 failed += 1;
                 errorf!("\nFAIL\n{:?}\n!=\n{:?}\n", syn_ast, libsyntax_ast);
             }
         }
     });

     (passed, failed)
 }

 fn libsyntax_parse_and_rewrite(input: &str) -> Option<P<ast::Expr>> {
     parse::libsyntax_expr(input).and_then(libsyntax_brackets)
 }

 /// Wrap every expression which is not already wrapped in parens with parens, to
 /// reveal the precidence of the parsed expressions, and produce a stringified
 /// form of the resulting expression.
 ///
 /// This method operates on libsyntax objects.
 fn libsyntax_brackets(mut libsyntax_expr: P<ast::Expr>) -> Option<P<ast::Expr>> {
     use rustc_data_structures::thin_vec::ThinVec;
     use smallvec::SmallVec;
     use std::mem;
     use syntax::ast::{Expr, ExprKind, Field, Mac, Pat, Stmt, StmtKind, Ty};
     use syntax::mut_visit::{noop_visit_expr, MutVisitor};
     use syntax_pos::DUMMY_SP;

     struct BracketsVisitor {
         failed: bool,
     };

     impl MutVisitor for BracketsVisitor {
         fn visit_expr(&mut self, e: &mut P<Expr>) {
             noop_visit_expr(e, self);
             match e.kind {
                 ExprKind::If(..) | ExprKind::Block(..) | ExprKind::Let(..) => {}
                 _ => {
                     let inner = mem::replace(
                         e,
                         P(Expr {
                             id: ast::DUMMY_NODE_ID,
                             kind: ExprKind::Err,
                             span: DUMMY_SP,
                             attrs: ThinVec::new(),
                         }),
                     );
                     e.kind = ExprKind::Paren(inner);
                 }
             }
         }

         fn flat_map_field(&mut self, mut f: Field) -> SmallVec<[Field; 1]> {
             if f.is_shorthand {
                 noop_visit_expr(&mut f.expr, self);
             } else {
                 self.visit_expr(&mut f.expr);
             }
             SmallVec::from([f])
         }

         // We don't want to look at expressions that might appear in patterns or
         // types yet. We'll look into comparing those in the future. For now
         // focus on expressions appearing in other places.
         fn visit_pat(&mut self, pat: &mut P<Pat>) {
             let _ = pat;
         }

         fn visit_ty(&mut self, ty: &mut P<Ty>) {
             let _ = ty;
         }

         fn flat_map_stmt(&mut self, stmt: Stmt) -> SmallVec<[Stmt; 1]> {
             let kind = match stmt.kind {
                 // Don't wrap toplevel expressions in statements.
                 StmtKind::Expr(mut e) => {
                     noop_visit_expr(&mut e, self);
                     StmtKind::Expr(e)
                 }
                 StmtKind::Semi(mut e) => {
                     noop_visit_expr(&mut e, self);
                     StmtKind::Semi(e)
                 }
                 s => s,
             };

             smallvec![Stmt { kind, ..stmt }]
         }

         fn visit_mac(&mut self, mac: &mut Mac) {
             // By default when folding over macros, libsyntax panics. This is
             // because it's usually not what you want, you want to run after
             // macro expansion. We do want to do that (syn doesn't do macro
             // expansion), so we implement visit_mac to just return the macro
             // unchanged.
             let _ = mac;
         }
     }

     let mut folder = BracketsVisitor { failed: false };
     folder.visit_expr(&mut libsyntax_expr);
     if folder.failed {
         None
     } else {
         Some(libsyntax_expr)
     }
 }

 /// Wrap every expression which is not already wrapped in parens with parens, to
 /// reveal the precedence of the parsed expressions, and produce a stringified
 /// form of the resulting expression.
 fn syn_brackets(syn_expr: syn::Expr) -> syn::Expr {
     use syn::fold::*;
     use syn::*;

     struct ParenthesizeEveryExpr;
     impl Fold for ParenthesizeEveryExpr {
         fn fold_expr(&mut self, expr: Expr) -> Expr {
             match expr {
                 Expr::Group(_) => unreachable!(),
                 Expr::If(..) | Expr::Unsafe(..) | Expr::Block(..) | Expr::Let(..) => {
                     fold_expr(self, expr)
                 }
                 _ => Expr::Paren(ExprParen {
                     attrs: Vec::new(),
                     expr: Box::new(fold_expr(self, expr)),
                     paren_token: token::Paren::default(),
                 }),
             }
         }

         fn fold_stmt(&mut self, stmt: Stmt) -> Stmt {
             match stmt {
                 // Don't wrap toplevel expressions in statements.
                 Stmt::Expr(e) => Stmt::Expr(fold_expr(self, e)),
                 Stmt::Semi(e, semi) => Stmt::Semi(fold_expr(self, e), semi),
                 s => s,
             }
         }

         // We don't want to look at expressions that might appear in patterns or
         // types yet. We'll look into comparing those in the future. For now
         // focus on expressions appearing in other places.
         fn fold_pat(&mut self, pat: Pat) -> Pat {
             pat
         }

         fn fold_type(&mut self, ty: Type) -> Type {
             ty
         }
     }

     let mut folder = ParenthesizeEveryExpr;
     folder.fold_expr(syn_expr)
 }

 /// Walk through a crate collecting all expressions we can find in it.
 fn collect_exprs(file: syn::File) -> Vec<syn::Expr> {
     use syn::fold::*;
     use syn::punctuated::Punctuated;
     use syn::*;

     struct CollectExprs(Vec<Expr>);
     impl Fold for CollectExprs {
         fn fold_expr(&mut self, expr: Expr) -> Expr {
             self.0.push(expr);

             Expr::Tuple(ExprTuple {
                 attrs: vec![],
                 elems: Punctuated::new(),
                 paren_token: token::Paren::default(),
             })
         }
     }

     let mut folder = CollectExprs(vec![]);
     folder.fold_file(file);
     folder.0
 }
	#![cfg(not(syn_disable_nightly_tests))]
	#![recursion_limit = "1024"]
	#![feature(rustc_private)]

	//! The tests in this module do the following:
	//!
	//! 1. Parse a given expression in both `syn` and `libsyntax`.
	//! 2. Fold over the expression adding brackets around each subexpression (with
	//! some complications - see the `syn_brackets` and `libsyntax_brackets`
	//! methods).
	//! 3. Serialize the `syn` expression back into a string, and re-parse it with
	//! `libsyntax`.
	//! 4. Respan all of the expressions, replacing the spans with the default
	//! spans.
	//! 5. Compare the expressions with one another, if they are not equal fail.

	extern crate rustc_data_structures;
	extern crate smallvec;
	extern crate syntax;
	extern crate syntax_pos;

	mod features;

	use quote::quote;
	use rayon::iter::{IntoParallelIterator, ParallelIterator};
	use regex::Regex;
	use smallvec::smallvec;
	use syntax::ast;
	use syntax::ptr::P;
	use syntax_pos::edition::Edition;
	use walkdir::{DirEntry, WalkDir};

	use std::fs::File;
	use std::io::Read;
	use std::process;
	use std::sync::atomic::{AtomicUsize, Ordering};

	use common::eq::SpanlessEq;
	use common::parse;

	#[macro_use]
	mod macros;

	#[allow(dead_code)]
	mod common;

	mod repo;

	/// Test some pre-set expressions chosen by us.
	#[test]
	fn test_simple_precedence() {
	const EXPRS: &[&str] = &[
	"1 + 2 * 3 + 4",
	"1 + 2 * ( 3 + 4 )",
	"{ for i in r { } *some_ptr += 1; }",
	"{ loop { break 5; } }",
	"{ if true { () }.mthd() }",
	"{ for i in unsafe { 20 } { } }",
	];

	let mut failed = 0;

	for input in EXPRS {
	let expr = if let Some(expr) = parse::syn_expr(input) {
	expr
	} else {
	failed += 1;
	continue;
	};

	let pf = match test_expressions(vec![expr]) {
	(1, 0) => "passed",
	(0, 1) => {
	failed += 1;
	"failed"
	}
	_ => unreachable!(),
	};
	errorf!("=== {}: {}\n", input, pf);
	}

	if failed > 0 {
	panic!("Failed {} tests", failed);
	}
	}

	/// Test expressions from rustc, like in `test_round_trip`.
	#[test]
	#[cfg_attr(target_os = "windows", ignore = "requires nix .sh")]
	fn test_rustc_precedence() {
	repo::clone_rust();
	let abort_after = common::abort_after();
	if abort_after == 0 {
	panic!("Skipping all precedence tests");
	}

	let passed = AtomicUsize::new(0);
	let failed = AtomicUsize::new(0);

	// 2018 edition is hard
	let edition_regex = Regex::new(r"\b(async\|try)[!(]").unwrap();

	WalkDir::new("tests/rust")
	.sort_by(\|a, b\| a.file_name().cmp(b.file_name()))
	.into_iter()
	.filter_entry(repo::base_dir_filter)
	.collect::<Result<Vec<DirEntry>, walkdir::Error>>()
	.unwrap()
	.into_par_iter()
	.for_each(\|entry\| {
	let path = entry.path();
	if path.is_dir() {
	return;
	}

	// Our version of `libsyntax` can't parse this tests
	if path
	.to_str()
	.unwrap()
	.ends_with("optional_comma_in_match_arm.rs")
	{
	return;
	}

	let mut file = File::open(path).unwrap();
	let mut content = String::new();
	file.read_to_string(&mut content).unwrap();
	let content = edition_regex.replace_all(&content, "_$0");

	let (l_passed, l_failed) = match syn::parse_file(&content) {
	Ok(file) => {
	let exprs = collect_exprs(file);
	test_expressions(exprs)
	}
	Err(msg) => {
	errorf!("syn failed to parse\n{:?}\n", msg);
	(0, 1)
	}
	};

	errorf!(
	"=== {}: {} passed \| {} failed\n",
	path.display(),
	l_passed,
	l_failed
	);

	passed.fetch_add(l_passed, Ordering::SeqCst);
	let prev_failed = failed.fetch_add(l_failed, Ordering::SeqCst);

	if prev_failed + l_failed >= abort_after {
	process::exit(1);
	}
	});

	let passed = passed.load(Ordering::SeqCst);
	let failed = failed.load(Ordering::SeqCst);

	errorf!("\n===== Precedence Test Results =====\n");
	errorf!("{} passed \| {} failed\n", passed, failed);

	if failed > 0 {
	panic!("{} failures", failed);
	}
	}

	fn test_expressions(exprs: Vec<syn::Expr>) -> (usize, usize) {
	let mut passed = 0;
	let mut failed = 0;

	syntax::with_globals(Edition::Edition2018, \|\| {
	for expr in exprs {
	let raw = quote!(#expr).to_string();

	let libsyntax_ast = if let Some(e) = libsyntax_parse_and_rewrite(&raw) {
	e
	} else {
	failed += 1;
	errorf!("\nFAIL - libsyntax failed to parse raw\n");
	continue;
	};

	let syn_expr = syn_brackets(expr);
	let syn_ast = if let Some(e) = parse::libsyntax_expr(&quote!(#syn_expr).to_string()) {
	e
	} else {
	failed += 1;
	errorf!("\nFAIL - libsyntax failed to parse bracketed\n");
	continue;
	};

	if SpanlessEq::eq(&syn_ast, &libsyntax_ast) {
	passed += 1;
	} else {
	failed += 1;
	errorf!("\nFAIL\n{:?}\n!=\n{:?}\n", syn_ast, libsyntax_ast);
	}
	}
	});

	(passed, failed)
	}

	fn libsyntax_parse_and_rewrite(input: &str) -> Option<P<ast::Expr>> {
	parse::libsyntax_expr(input).and_then(libsyntax_brackets)
	}

	/// Wrap every expression which is not already wrapped in parens with parens, to
	/// reveal the precidence of the parsed expressions, and produce a stringified
	/// form of the resulting expression.
	///
	/// This method operates on libsyntax objects.
	fn libsyntax_brackets(mut libsyntax_expr: P<ast::Expr>) -> Option<P<ast::Expr>> {
	use rustc_data_structures::thin_vec::ThinVec;
	use smallvec::SmallVec;
	use std::mem;
	use syntax::ast::{Expr, ExprKind, Field, Mac, Pat, Stmt, StmtKind, Ty};
	use syntax::mut_visit::{noop_visit_expr, MutVisitor};
	use syntax_pos::DUMMY_SP;

	struct BracketsVisitor {
	failed: bool,
	};

	impl MutVisitor for BracketsVisitor {
	fn visit_expr(&mut self, e: &mut P<Expr>) {
	noop_visit_expr(e, self);
	match e.kind {
	ExprKind::If(..) \| ExprKind::Block(..) \| ExprKind::Let(..) => {}
	_ => {
	let inner = mem::replace(
	e,
	P(Expr {
	id: ast::DUMMY_NODE_ID,
	kind: ExprKind::Err,
	span: DUMMY_SP,
	attrs: ThinVec::new(),
	}),
	);
	e.kind = ExprKind::Paren(inner);
	}
	}
	}

	fn flat_map_field(&mut self, mut f: Field) -> SmallVec<[Field; 1]> {
	if f.is_shorthand {
	noop_visit_expr(&mut f.expr, self);
	} else {
	self.visit_expr(&mut f.expr);
	}
	SmallVec::from([f])
	}

	// We don't want to look at expressions that might appear in patterns or
	// types yet. We'll look into comparing those in the future. For now
	// focus on expressions appearing in other places.
	fn visit_pat(&mut self, pat: &mut P<Pat>) {
	let _ = pat;
	}

	fn visit_ty(&mut self, ty: &mut P<Ty>) {
	let _ = ty;
	}

	fn flat_map_stmt(&mut self, stmt: Stmt) -> SmallVec<[Stmt; 1]> {
	let kind = match stmt.kind {
	// Don't wrap toplevel expressions in statements.
	StmtKind::Expr(mut e) => {
	noop_visit_expr(&mut e, self);
	StmtKind::Expr(e)
	}
	StmtKind::Semi(mut e) => {
	noop_visit_expr(&mut e, self);
	StmtKind::Semi(e)
	}
	s => s,
	};

	smallvec![Stmt { kind, ..stmt }]
	}

	fn visit_mac(&mut self, mac: &mut Mac) {
	// By default when folding over macros, libsyntax panics. This is
	// because it's usually not what you want, you want to run after
	// macro expansion. We do want to do that (syn doesn't do macro
	// expansion), so we implement visit_mac to just return the macro
	// unchanged.
	let _ = mac;
	}
	}

	let mut folder = BracketsVisitor { failed: false };
	folder.visit_expr(&mut libsyntax_expr);
	if folder.failed {
	None
	} else {
	Some(libsyntax_expr)
	}
	}

	/// Wrap every expression which is not already wrapped in parens with parens, to
	/// reveal the precedence of the parsed expressions, and produce a stringified
	/// form of the resulting expression.
	fn syn_brackets(syn_expr: syn::Expr) -> syn::Expr {
	use syn::fold::*;
	use syn::*;

	struct ParenthesizeEveryExpr;
	impl Fold for ParenthesizeEveryExpr {
	fn fold_expr(&mut self, expr: Expr) -> Expr {
	match expr {
	Expr::Group(_) => unreachable!(),
	Expr::If(..) \| Expr::Unsafe(..) \| Expr::Block(..) \| Expr::Let(..) => {
	fold_expr(self, expr)
	}
	_ => Expr::Paren(ExprParen {
	attrs: Vec::new(),
	expr: Box::new(fold_expr(self, expr)),
	paren_token: token::Paren::default(),
	}),
	}
	}

	fn fold_stmt(&mut self, stmt: Stmt) -> Stmt {
	match stmt {
	// Don't wrap toplevel expressions in statements.
	Stmt::Expr(e) => Stmt::Expr(fold_expr(self, e)),
	Stmt::Semi(e, semi) => Stmt::Semi(fold_expr(self, e), semi),
	s => s,
	}
	}

	// We don't want to look at expressions that might appear in patterns or
	// types yet. We'll look into comparing those in the future. For now
	// focus on expressions appearing in other places.
	fn fold_pat(&mut self, pat: Pat) -> Pat {
	pat
	}

	fn fold_type(&mut self, ty: Type) -> Type {
	ty
	}
	}

	let mut folder = ParenthesizeEveryExpr;
	folder.fold_expr(syn_expr)
	}

	/// Walk through a crate collecting all expressions we can find in it.
	fn collect_exprs(file: syn::File) -> Vec<syn::Expr> {
	use syn::fold::*;
	use syn::punctuated::Punctuated;
	use syn::*;

	struct CollectExprs(Vec<Expr>);
	impl Fold for CollectExprs {
	fn fold_expr(&mut self, expr: Expr) -> Expr {
	self.0.push(expr);

	Expr::Tuple(ExprTuple {
	attrs: vec![],
	elems: Punctuated::new(),
	paren_token: token::Paren::default(),
	})
	}
	}

	let mut folder = CollectExprs(vec![]);
	folder.fold_file(file);
	folder.0
	}