linux-musl-x86/1.75.0/lib/rustlib/src/rust/vendor/backtrace/src/symbolize/gimli/stash.rs - platform/prebuilts/rust - Git at Google

 // only used on Linux right now, so allow dead code elsewhere
 #![cfg_attr(not(target_os = "linux"), allow(dead_code))]

 use super::Mmap;
 use alloc::vec;
 use alloc::vec::Vec;
 use core::cell::UnsafeCell;

 /// A simple arena allocator for byte buffers.
 pub struct Stash {
     buffers: UnsafeCell<Vec<Vec<u8>>>,
     mmaps: UnsafeCell<Vec<Mmap>>,
 }

 impl Stash {
     pub fn new() -> Stash {
         Stash {
             buffers: UnsafeCell::new(Vec::new()),
             mmaps: UnsafeCell::new(Vec::new()),
         }
     }

     /// Allocates a buffer of the specified size and returns a mutable reference
     /// to it.
     pub fn allocate(&self, size: usize) -> &mut [u8] {
         // SAFETY: this is the only function that ever constructs a mutable
         // reference to `self.buffers`.
         let buffers = unsafe { &mut *self.buffers.get() };
         let i = buffers.len();
         buffers.push(vec![0; size]);
         // SAFETY: we never remove elements from `self.buffers`, so a reference
         // to the data inside any buffer will live as long as `self` does.
         &mut buffers[i]
     }

     /// Stores a `Mmap` for the lifetime of this `Stash`, returning a pointer
     /// which is scoped to just this lifetime.
     pub fn cache_mmap(&self, map: Mmap) -> &[u8] {
         // SAFETY: this is the only location for a mutable pointer to
         // `mmaps`, and this structure isn't threadsafe to shared across
         // threads either. We also never remove elements from `self.mmaps`,
         // so a reference to the data inside the map will live as long as
         // `self` does.
         unsafe {
             let mmaps = &mut *self.mmaps.get();
             mmaps.push(map);
             mmaps.last().unwrap()
         }
     }
 }
	// only used on Linux right now, so allow dead code elsewhere
	#![cfg_attr(not(target_os = "linux"), allow(dead_code))]

	use super::Mmap;
	use alloc::vec;
	use alloc::vec::Vec;
	use core::cell::UnsafeCell;

	/// A simple arena allocator for byte buffers.
	pub struct Stash {
	buffers: UnsafeCell<Vec<Vec<u8>>>,
	mmaps: UnsafeCell<Vec<Mmap>>,
	}

	impl Stash {
	pub fn new() -> Stash {
	Stash {
	buffers: UnsafeCell::new(Vec::new()),
	mmaps: UnsafeCell::new(Vec::new()),
	}
	}

	/// Allocates a buffer of the specified size and returns a mutable reference
	/// to it.
	pub fn allocate(&self, size: usize) -> &mut [u8] {
	// SAFETY: this is the only function that ever constructs a mutable
	// reference to `self.buffers`.
	let buffers = unsafe { &mut *self.buffers.get() };
	let i = buffers.len();
	buffers.push(vec![0; size]);
	// SAFETY: we never remove elements from `self.buffers`, so a reference
	// to the data inside any buffer will live as long as `self` does.
	&mut buffers[i]
	}

	/// Stores a `Mmap` for the lifetime of this `Stash`, returning a pointer
	/// which is scoped to just this lifetime.
	pub fn cache_mmap(&self, map: Mmap) -> &[u8] {
	// SAFETY: this is the only location for a mutable pointer to
	// `mmaps`, and this structure isn't threadsafe to shared across
	// threads either. We also never remove elements from `self.mmaps`,
	// so a reference to the data inside the map will live as long as
	// `self` does.
	unsafe {
	let mmaps = &mut *self.mmaps.get();
	mmaps.push(map);
	mmaps.last().unwrap()
	}
	}
	}