vendor/wasm-bindgen-backend-0.2.92/src/util.rs - toolchain/rustc - Git at Google

 //! Common utility function for manipulating syn types and
 //! handling parsed values

 use std::collections::hash_map::DefaultHasher;
 use std::env;
 use std::fmt;
 use std::hash::{Hash, Hasher};
 use std::iter::FromIterator;
 use std::sync::atomic::AtomicBool;
 use std::sync::atomic::AtomicUsize;
 use std::sync::atomic::Ordering::SeqCst;

 use crate::ast;
 use proc_macro2::{self, Ident};

 /// Check whether a given `&str` is a Rust keyword
 #[rustfmt::skip]
 fn is_rust_keyword(name: &str) -> bool {
     matches!(name,
         "abstract" | "alignof" | "as" | "become" | "box" | "break" | "const" | "continue"
         | "crate" | "do" | "else" | "enum" | "extern" | "false" | "final" | "fn" | "for" | "if"
         | "impl" | "in" | "let" | "loop" | "macro" | "match" | "mod" | "move" | "mut"
         | "offsetof" | "override" | "priv" | "proc" | "pub" | "pure" | "ref" | "return"
         | "Self" | "self" | "sizeof" | "static" | "struct" | "super" | "trait" | "true"
         | "type" | "typeof" | "unsafe" | "unsized" | "use" | "virtual" | "where" | "while"
         | "yield" | "bool" | "_"
     )
 }

 /// Create an `Ident`, possibly mangling it if it conflicts with a Rust keyword.
 pub fn rust_ident(name: &str) -> Ident {
     if name.is_empty() {
         panic!("tried to create empty Ident (from \"\")");
     } else if is_rust_keyword(name) {
         Ident::new(&format!("{}_", name), proc_macro2::Span::call_site())

     // we didn't historically have `async` in the `is_rust_keyword` list above,
     // so for backwards compatibility reasons we need to generate an `async`
     // identifier as well, but we'll be sure to use a raw identifier to ease
     // compatibility with the 2018 edition.
     //
     // Note, though, that `proc-macro` doesn't support a normal way to create a
     // raw identifier. To get around that we do some wonky parsing to
     // roundaboutly create one.
     } else if name == "async" {
         let ident = "r#async"
             .parse::<proc_macro2::TokenStream>()
             .unwrap()
             .into_iter()
             .next()
             .unwrap();
         match ident {
             proc_macro2::TokenTree::Ident(i) => i,
             _ => unreachable!(),
         }
     } else if name.chars().next().unwrap().is_ascii_digit() {
         Ident::new(&format!("N{}", name), proc_macro2::Span::call_site())
     } else {
         raw_ident(name)
     }
 }

 /// Create an `Ident` without checking to see if it conflicts with a Rust
 /// keyword.
 pub fn raw_ident(name: &str) -> Ident {
     Ident::new(name, proc_macro2::Span::call_site())
 }

 /// Create a path type from the given segments. For example an iterator yielding
 /// the idents `[foo, bar, baz]` will result in the path type `foo::bar::baz`.
 pub fn simple_path_ty<I>(segments: I) -> syn::Type
 where
     I: IntoIterator<Item = Ident>,
 {
     path_ty(false, segments)
 }

 /// Create a global path type from the given segments. For example an iterator
 /// yielding the idents `[foo, bar, baz]` will result in the path type
 /// `::foo::bar::baz`.
 pub fn leading_colon_path_ty<I>(segments: I) -> syn::Type
 where
     I: IntoIterator<Item = Ident>,
 {
     path_ty(true, segments)
 }

 fn path_ty<I>(leading_colon: bool, segments: I) -> syn::Type
 where
     I: IntoIterator<Item = Ident>,
 {
     let segments: Vec<_> = segments
         .into_iter()
         .map(|i| syn::PathSegment {
             ident: i,
             arguments: syn::PathArguments::None,
         })
         .collect();

     syn::TypePath {
         qself: None,
         path: syn::Path {
             leading_colon: if leading_colon {
                 Some(Default::default())
             } else {
                 None
             },
             segments: syn::punctuated::Punctuated::from_iter(segments),
         },
     }
     .into()
 }

 /// Create a path type with a single segment from a given Identifier
 pub fn ident_ty(ident: Ident) -> syn::Type {
     simple_path_ty(Some(ident))
 }

 /// Convert an ImportFunction into the more generic Import type, wrapping the provided function
 pub fn wrap_import_function(function: ast::ImportFunction) -> ast::Import {
     ast::Import {
         module: None,
         js_namespace: None,
         kind: ast::ImportKind::Function(function),
     }
 }

 /// Small utility used when generating symbol names.
 ///
 /// Hashes the public field here along with a few cargo-set env vars to
 /// distinguish between runs of the procedural macro.
 #[derive(Debug)]
 pub struct ShortHash<T>(pub T);

 impl<T: Hash> fmt::Display for ShortHash<T> {
     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
         static HASHED: AtomicBool = AtomicBool::new(false);
         static HASH: AtomicUsize = AtomicUsize::new(0);

         // Try to amortize the cost of loading env vars a lot as we're gonna be
         // hashing for a lot of symbols.
         if !HASHED.load(SeqCst) {
             let mut h = DefaultHasher::new();
             env::var("CARGO_PKG_NAME")
                 .expect("should have CARGO_PKG_NAME env var")
                 .hash(&mut h);
             env::var("CARGO_PKG_VERSION")
                 .expect("should have CARGO_PKG_VERSION env var")
                 .hash(&mut h);
             // This may chop off 32 bits on 32-bit platforms, but that's ok, we
             // just want something to mix in below anyway.
             HASH.store(h.finish() as usize, SeqCst);
             HASHED.store(true, SeqCst);
         }

         let mut h = DefaultHasher::new();
         HASH.load(SeqCst).hash(&mut h);
         self.0.hash(&mut h);
         write!(f, "{:016x}", h.finish())
     }
 }
	//! Common utility function for manipulating syn types and
	//! handling parsed values

	use std::collections::hash_map::DefaultHasher;
	use std::env;
	use std::fmt;
	use std::hash::{Hash, Hasher};
	use std::iter::FromIterator;
	use std::sync::atomic::AtomicBool;
	use std::sync::atomic::AtomicUsize;
	use std::sync::atomic::Ordering::SeqCst;

	use crate::ast;
	use proc_macro2::{self, Ident};

	/// Check whether a given `&str` is a Rust keyword
	#[rustfmt::skip]
	fn is_rust_keyword(name: &str) -> bool {
	matches!(name,
	"abstract" \| "alignof" \| "as" \| "become" \| "box" \| "break" \| "const" \| "continue"
	\| "crate" \| "do" \| "else" \| "enum" \| "extern" \| "false" \| "final" \| "fn" \| "for" \| "if"
	\| "impl" \| "in" \| "let" \| "loop" \| "macro" \| "match" \| "mod" \| "move" \| "mut"
	\| "offsetof" \| "override" \| "priv" \| "proc" \| "pub" \| "pure" \| "ref" \| "return"
	\| "Self" \| "self" \| "sizeof" \| "static" \| "struct" \| "super" \| "trait" \| "true"
	\| "type" \| "typeof" \| "unsafe" \| "unsized" \| "use" \| "virtual" \| "where" \| "while"
	\| "yield" \| "bool" \| "_"
	)
	}

	/// Create an `Ident`, possibly mangling it if it conflicts with a Rust keyword.
	pub fn rust_ident(name: &str) -> Ident {
	if name.is_empty() {
	panic!("tried to create empty Ident (from \"\")");
	} else if is_rust_keyword(name) {
	Ident::new(&format!("{}_", name), proc_macro2::Span::call_site())

	// we didn't historically have `async` in the `is_rust_keyword` list above,
	// so for backwards compatibility reasons we need to generate an `async`
	// identifier as well, but we'll be sure to use a raw identifier to ease
	// compatibility with the 2018 edition.
	//
	// Note, though, that `proc-macro` doesn't support a normal way to create a
	// raw identifier. To get around that we do some wonky parsing to
	// roundaboutly create one.
	} else if name == "async" {
	let ident = "r#async"
	.parse::<proc_macro2::TokenStream>()
	.unwrap()
	.into_iter()
	.next()
	.unwrap();
	match ident {
	proc_macro2::TokenTree::Ident(i) => i,
	_ => unreachable!(),
	}
	} else if name.chars().next().unwrap().is_ascii_digit() {
	Ident::new(&format!("N{}", name), proc_macro2::Span::call_site())
	} else {
	raw_ident(name)
	}
	}

	/// Create an `Ident` without checking to see if it conflicts with a Rust
	/// keyword.
	pub fn raw_ident(name: &str) -> Ident {
	Ident::new(name, proc_macro2::Span::call_site())
	}

	/// Create a path type from the given segments. For example an iterator yielding
	/// the idents `[foo, bar, baz]` will result in the path type `foo::bar::baz`.
	pub fn simple_path_ty<I>(segments: I) -> syn::Type
	where
	I: IntoIterator<Item = Ident>,
	{
	path_ty(false, segments)
	}

	/// Create a global path type from the given segments. For example an iterator
	/// yielding the idents `[foo, bar, baz]` will result in the path type
	/// `::foo::bar::baz`.
	pub fn leading_colon_path_ty<I>(segments: I) -> syn::Type
	where
	I: IntoIterator<Item = Ident>,
	{
	path_ty(true, segments)
	}

	fn path_ty<I>(leading_colon: bool, segments: I) -> syn::Type
	where
	I: IntoIterator<Item = Ident>,
	{
	let segments: Vec<_> = segments
	.into_iter()
	.map(\|i\| syn::PathSegment {
	ident: i,
	arguments: syn::PathArguments::None,
	})
	.collect();

	syn::TypePath {
	qself: None,
	path: syn::Path {
	leading_colon: if leading_colon {
	Some(Default::default())
	} else {
	None
	},
	segments: syn::punctuated::Punctuated::from_iter(segments),
	},
	}
	.into()
	}

	/// Create a path type with a single segment from a given Identifier
	pub fn ident_ty(ident: Ident) -> syn::Type {
	simple_path_ty(Some(ident))
	}

	/// Convert an ImportFunction into the more generic Import type, wrapping the provided function
	pub fn wrap_import_function(function: ast::ImportFunction) -> ast::Import {
	ast::Import {
	module: None,
	js_namespace: None,
	kind: ast::ImportKind::Function(function),
	}
	}

	/// Small utility used when generating symbol names.
	///
	/// Hashes the public field here along with a few cargo-set env vars to
	/// distinguish between runs of the procedural macro.
	#[derive(Debug)]
	pub struct ShortHash<T>(pub T);

	impl<T: Hash> fmt::Display for ShortHash<T> {
	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
	static HASHED: AtomicBool = AtomicBool::new(false);
	static HASH: AtomicUsize = AtomicUsize::new(0);

	// Try to amortize the cost of loading env vars a lot as we're gonna be
	// hashing for a lot of symbols.
	if !HASHED.load(SeqCst) {
	let mut h = DefaultHasher::new();
	env::var("CARGO_PKG_NAME")
	.expect("should have CARGO_PKG_NAME env var")
	.hash(&mut h);
	env::var("CARGO_PKG_VERSION")
	.expect("should have CARGO_PKG_VERSION env var")
	.hash(&mut h);
	// This may chop off 32 bits on 32-bit platforms, but that's ok, we
	// just want something to mix in below anyway.
	HASH.store(h.finish() as usize, SeqCst);
	HASHED.store(true, SeqCst);
	}

	let mut h = DefaultHasher::new();
	HASH.load(SeqCst).hash(&mut h);
	self.0.hash(&mut h);
	write!(f, "{:016x}", h.finish())
	}
	}