src/span_of.rs - platform/external/rust/crates/memoffset - Git at Google

 // Copyright (c) 2017 Gilad Naaman
 //
 // Permission is hereby granted, free of charge, to any person obtaining a copy
 // of this software and associated documentation files (the "Software"), to deal
 // in the Software without restriction, including without limitation the rights
 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 // copies of the Software, and to permit persons to whom the Software is
 // furnished to do so, subject to the following conditions:
 //
 // The above copyright notice and this permission notice shall be included in all
 // copies or substantial portions of the Software.
 //
 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 // SOFTWARE.

 /// Reexport for `local_inner_macros`; see
 /// <https://doc.rust-lang.org/edition-guide/rust-2018/macros/macro-changes.html#macros-using-local_inner_macros>.
 #[doc(hidden)]
 #[macro_export]
 macro_rules! _memoffset__compile_error {
     ($($inner:tt)*) => {
         compile_error! { $($inner)* }
     }
 }

 /// Produces a range instance representing the sub-slice containing the specified member.
 ///
 /// This macro provides 2 forms of differing functionalities.
 ///
 /// The first form is identical to the appearance of the `offset_of!` macro.
 ///
 /// ```ignore
 /// span_of!(Struct, member)
 /// ```
 ///
 /// The second form of `span_of!` returns a sub-slice which starts at one field, and ends at another.
 /// The general pattern of this form is:
 ///
 /// ```ignore
 /// // Exclusive
 /// span_of!(Struct, member_a .. member_b)
 /// // Inclusive
 /// span_of!(Struct, member_a ..= member_b)
 ///
 /// // Open-ended ranges
 /// span_of!(Struct, .. end)
 /// span_of!(Struct, start ..)
 /// ```
 ///
 /// *Note*:
 /// This macro uses recursion in order to resolve the range expressions, so there is a limit to
 /// the complexity of the expression.
 /// In order to raise the limit, the compiler's recursion limit should be lifted.
 ///
 /// ## Examples
 /// ```
 /// #[macro_use]
 /// extern crate memoffset;
 ///
 /// #[repr(C)]
 /// struct Florp {
 ///     a: u32
 /// }
 ///
 /// #[repr(C)]
 /// struct Blarg {
 ///     x: [u32; 2],
 ///     y: [u8; 56],
 ///     z: Florp,
 ///     egg: [[u8; 4]; 4]
 /// }
 ///
 /// fn main() {
 ///     assert_eq!(0..84,  span_of!(Blarg, ..));
 ///     assert_eq!(0..8,   span_of!(Blarg, .. y));
 ///     assert_eq!(0..64,  span_of!(Blarg, ..= y));
 ///     assert_eq!(0..8,   span_of!(Blarg, x));
 ///     assert_eq!(8..84,  span_of!(Blarg, y ..));
 ///     assert_eq!(0..8,   span_of!(Blarg, x .. y));
 ///     assert_eq!(0..64,  span_of!(Blarg, x ..= y));
 /// }
 /// ```
 #[macro_export(local_inner_macros)]
 macro_rules! span_of {
     (@helper  $root:ident, [] ..=) => {
         _memoffset__compile_error!("Expected a range, found '..='")
     };
     (@helper $root:ident, [] ..) => {
         _memoffset__compile_error!("Expected a range, found '..'")
     };
     // No explicit begin for range.
     (@helper $root:ident, $parent:path, [] ..) => {{
         ($root as usize,
          $root as usize + $crate::__priv::size_of_pointee($root))
     }};
     (@helper $root:ident, $parent:path, [] ..= $end:tt) => {{
         let end = raw_field!($root, $parent, $end);
         ($root as usize, end as usize + $crate::__priv::size_of_pointee(end))
     }};
     (@helper $root:ident, $parent:path, [] .. $end:tt) => {{
         ($root as usize, raw_field!($root, $parent, $end) as usize)
     }};
     // Explicit begin and end for range.
     (@helper $root:ident, $parent:path, # $begin:tt [] ..= $end:tt) => {{
         let begin = raw_field!($root, $parent, $begin);
         let end = raw_field!($root, $parent, $end);
         (begin as usize, end as usize + $crate::__priv::size_of_pointee(end))
     }};
     (@helper $root:ident, $parent:path, # $begin:tt [] .. $end:tt) => {{
         (raw_field!($root, $parent, $begin) as usize,
          raw_field!($root, $parent, $end) as usize)
     }};
     // No explicit end for range.
     (@helper $root:ident, $parent:path, # $begin:tt [] ..) => {{
         (raw_field!($root, $parent, $begin) as usize,
          $root as usize + $crate::__priv::size_of_pointee($root))
     }};
     (@helper $root:ident, $parent:path, # $begin:tt [] ..=) => {{
         _memoffset__compile_error!(
             "Found inclusive range to the end of a struct. Did you mean '..' instead of '..='?")
     }};
     // Just one field.
     (@helper $root:ident, $parent:path, # $field:tt []) => {{
         let field = raw_field!($root, $parent, $field);
         (field as usize, field as usize + $crate::__priv::size_of_pointee(field))
     }};
     // Parsing.
     (@helper $root:ident, $parent:path, $(# $begin:tt)+ [] $tt:tt $($rest:tt)*) => {{
         span_of!(@helper $root, $parent, $(#$begin)* #$tt [] $($rest)*)
     }};
     (@helper $root:ident, $parent:path, [] $tt:tt $($rest:tt)*) => {{
         span_of!(@helper $root, $parent, #$tt [] $($rest)*)
     }};

     // Entry point.
     ($sty:path, $($exp:tt)+) => ({
         // Get a base pointer.
         _memoffset__let_base_ptr!(root, $sty);
         let base = root as usize;
         let (begin, end) = span_of!(@helper root, $sty, [] $($exp)*);
         begin-base..end-base
     });
 }

 #[cfg(test)]
 mod tests {
     // ANDROID: use std instead of core, since we're not building wiht no-std.
     use std::mem;

     #[test]
     fn span_simple() {
         #[repr(C)]
         struct Foo {
             a: u32,
             b: [u8; 2],
             c: i64,
         }

         assert_eq!(span_of!(Foo, a), 0..4);
         assert_eq!(span_of!(Foo, b), 4..6);
         assert_eq!(span_of!(Foo, c), 8..8 + 8);
     }

     #[test]
     #[cfg_attr(miri, ignore)] // this creates unaligned references
     fn span_simple_packed() {
         #[repr(C, packed)]
         struct Foo {
             a: u32,
             b: [u8; 2],
             c: i64,
         }

         assert_eq!(span_of!(Foo, a), 0..4);
         assert_eq!(span_of!(Foo, b), 4..6);
         assert_eq!(span_of!(Foo, c), 6..6 + 8);
     }

     #[test]
     fn span_forms() {
         #[repr(C)]
         struct Florp {
             a: u32,
         }

         #[repr(C)]
         struct Blarg {
             x: u64,
             y: [u8; 56],
             z: Florp,
             egg: [[u8; 4]; 5],
         }

         // Love me some brute force
         assert_eq!(0..8, span_of!(Blarg, x));
         assert_eq!(64..68, span_of!(Blarg, z));
         assert_eq!(68..mem::size_of::<Blarg>(), span_of!(Blarg, egg));

         assert_eq!(8..64, span_of!(Blarg, y..z));
         assert_eq!(0..64, span_of!(Blarg, x..=y));
     }

     #[test]
     fn ig_test() {
         #[repr(C)]
         struct Member {
             foo: u32,
         }

         #[repr(C)]
         struct Test {
             x: u64,
             y: [u8; 56],
             z: Member,
             egg: [[u8; 4]; 4],
         }

         assert_eq!(span_of!(Test, ..x), 0..0);
         assert_eq!(span_of!(Test, ..=x), 0..8);
         assert_eq!(span_of!(Test, ..y), 0..8);
         assert_eq!(span_of!(Test, ..=y), 0..64);
         assert_eq!(span_of!(Test, ..z), 0..64);
         assert_eq!(span_of!(Test, ..=z), 0..68);
         assert_eq!(span_of!(Test, ..egg), 0..68);
         assert_eq!(span_of!(Test, ..=egg), 0..84);
         assert_eq!(span_of!(Test, ..), 0..mem::size_of::<Test>());
         assert_eq!(
             span_of!(Test, x..),
             offset_of!(Test, x)..mem::size_of::<Test>()
         );
         assert_eq!(
             span_of!(Test, y..),
             offset_of!(Test, y)..mem::size_of::<Test>()
         );

         assert_eq!(
             span_of!(Test, z..),
             offset_of!(Test, z)..mem::size_of::<Test>()
         );
         assert_eq!(
             span_of!(Test, egg..),
             offset_of!(Test, egg)..mem::size_of::<Test>()
         );
         assert_eq!(
             span_of!(Test, x..y),
             offset_of!(Test, x)..offset_of!(Test, y)
         );
         assert_eq!(
             span_of!(Test, x..=y),
             offset_of!(Test, x)..offset_of!(Test, y) + mem::size_of::<[u8; 56]>()
         );
     }
 }
	// Copyright (c) 2017 Gilad Naaman
	//
	// Permission is hereby granted, free of charge, to any person obtaining a copy
	// of this software and associated documentation files (the "Software"), to deal
	// in the Software without restriction, including without limitation the rights
	// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	// copies of the Software, and to permit persons to whom the Software is
	// furnished to do so, subject to the following conditions:
	//
	// The above copyright notice and this permission notice shall be included in all
	// copies or substantial portions of the Software.
	//
	// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	// SOFTWARE.

	/// Reexport for `local_inner_macros`; see
	/// <https://doc.rust-lang.org/edition-guide/rust-2018/macros/macro-changes.html#macros-using-local_inner_macros>.
	#[doc(hidden)]
	#[macro_export]
	macro_rules! _memoffset__compile_error {
	($($inner:tt)*) => {
	compile_error! { $($inner)* }
	}
	}

	/// Produces a range instance representing the sub-slice containing the specified member.
	///
	/// This macro provides 2 forms of differing functionalities.
	///
	/// The first form is identical to the appearance of the `offset_of!` macro.
	///
	/// ```ignore
	/// span_of!(Struct, member)
	/// ```
	///
	/// The second form of `span_of!` returns a sub-slice which starts at one field, and ends at another.
	/// The general pattern of this form is:
	///
	/// ```ignore
	/// // Exclusive
	/// span_of!(Struct, member_a .. member_b)
	/// // Inclusive
	/// span_of!(Struct, member_a ..= member_b)
	///
	/// // Open-ended ranges
	/// span_of!(Struct, .. end)
	/// span_of!(Struct, start ..)
	/// ```
	///
	/// Note:
	/// This macro uses recursion in order to resolve the range expressions, so there is a limit to
	/// the complexity of the expression.
	/// In order to raise the limit, the compiler's recursion limit should be lifted.
	///
	/// ## Examples
	/// ```
	/// #[macro_use]
	/// extern crate memoffset;
	///
	/// #[repr(C)]
	/// struct Florp {
	/// a: u32
	/// }
	///
	/// #[repr(C)]
	/// struct Blarg {
	/// x: [u32; 2],
	/// y: [u8; 56],
	/// z: Florp,
	/// egg: [[u8; 4]; 4]
	/// }
	///
	/// fn main() {
	/// assert_eq!(0..84, span_of!(Blarg, ..));
	/// assert_eq!(0..8, span_of!(Blarg, .. y));
	/// assert_eq!(0..64, span_of!(Blarg, ..= y));
	/// assert_eq!(0..8, span_of!(Blarg, x));
	/// assert_eq!(8..84, span_of!(Blarg, y ..));
	/// assert_eq!(0..8, span_of!(Blarg, x .. y));
	/// assert_eq!(0..64, span_of!(Blarg, x ..= y));
	/// }
	/// ```
	#[macro_export(local_inner_macros)]
	macro_rules! span_of {
	(@helper $root:ident, [] ..=) => {
	_memoffset__compile_error!("Expected a range, found '..='")
	};
	(@helper $root:ident, [] ..) => {
	_memoffset__compile_error!("Expected a range, found '..'")
	};
	// No explicit begin for range.
	(@helper $root:ident, $parent:path, [] ..) => {{
	($root as usize,
	$root as usize + $crate::__priv::size_of_pointee($root))
	}};
	(@helper $root:ident, $parent:path, [] ..= $end:tt) => {{
	let end = raw_field!($root, $parent, $end);
	($root as usize, end as usize + $crate::__priv::size_of_pointee(end))
	}};
	(@helper $root:ident, $parent:path, [] .. $end:tt) => {{
	($root as usize, raw_field!($root, $parent, $end) as usize)
	}};
	// Explicit begin and end for range.
	(@helper $root:ident, $parent:path, # $begin:tt [] ..= $end:tt) => {{
	let begin = raw_field!($root, $parent, $begin);
	let end = raw_field!($root, $parent, $end);
	(begin as usize, end as usize + $crate::__priv::size_of_pointee(end))
	}};
	(@helper $root:ident, $parent:path, # $begin:tt [] .. $end:tt) => {{
	(raw_field!($root, $parent, $begin) as usize,
	raw_field!($root, $parent, $end) as usize)
	}};
	// No explicit end for range.
	(@helper $root:ident, $parent:path, # $begin:tt [] ..) => {{
	(raw_field!($root, $parent, $begin) as usize,
	$root as usize + $crate::__priv::size_of_pointee($root))
	}};
	(@helper $root:ident, $parent:path, # $begin:tt [] ..=) => {{
	_memoffset__compile_error!(
	"Found inclusive range to the end of a struct. Did you mean '..' instead of '..='?")
	}};
	// Just one field.
	(@helper $root:ident, $parent:path, # $field:tt []) => {{
	let field = raw_field!($root, $parent, $field);
	(field as usize, field as usize + $crate::__priv::size_of_pointee(field))
	}};
	// Parsing.
	(@helper $root:ident, $parent:path, $(# $begin:tt)+ [] $tt:tt $($rest:tt)*) => {{
	span_of!(@helper $root, $parent, $(#$begin)* #$tt [] $($rest)*)
	}};
	(@helper $root:ident, $parent:path, [] $tt:tt $($rest:tt)*) => {{
	span_of!(@helper $root, $parent, #$tt [] $($rest)*)
	}};

	// Entry point.
	($sty:path, $($exp:tt)+) => ({
	// Get a base pointer.
	_memoffset__let_base_ptr!(root, $sty);
	let base = root as usize;
	let (begin, end) = span_of!(@helper root, $sty, [] $($exp)*);
	begin-base..end-base
	});
	}

	#[cfg(test)]
	mod tests {
	// ANDROID: use std instead of core, since we're not building wiht no-std.
	use std::mem;

	#[test]
	fn span_simple() {
	#[repr(C)]
	struct Foo {
	a: u32,
	b: [u8; 2],
	c: i64,
	}

	assert_eq!(span_of!(Foo, a), 0..4);
	assert_eq!(span_of!(Foo, b), 4..6);
	assert_eq!(span_of!(Foo, c), 8..8 + 8);
	}

	#[test]
	#[cfg_attr(miri, ignore)] // this creates unaligned references
	fn span_simple_packed() {
	#[repr(C, packed)]
	struct Foo {
	a: u32,
	b: [u8; 2],
	c: i64,
	}

	assert_eq!(span_of!(Foo, a), 0..4);
	assert_eq!(span_of!(Foo, b), 4..6);
	assert_eq!(span_of!(Foo, c), 6..6 + 8);
	}

	#[test]
	fn span_forms() {
	#[repr(C)]
	struct Florp {
	a: u32,
	}

	#[repr(C)]
	struct Blarg {
	x: u64,
	y: [u8; 56],
	z: Florp,
	egg: [[u8; 4]; 5],
	}

	// Love me some brute force
	assert_eq!(0..8, span_of!(Blarg, x));
	assert_eq!(64..68, span_of!(Blarg, z));
	assert_eq!(68..mem::size_of::<Blarg>(), span_of!(Blarg, egg));

	assert_eq!(8..64, span_of!(Blarg, y..z));
	assert_eq!(0..64, span_of!(Blarg, x..=y));
	}

	#[test]
	fn ig_test() {
	#[repr(C)]
	struct Member {
	foo: u32,
	}

	#[repr(C)]
	struct Test {
	x: u64,
	y: [u8; 56],
	z: Member,
	egg: [[u8; 4]; 4],
	}

	assert_eq!(span_of!(Test, ..x), 0..0);
	assert_eq!(span_of!(Test, ..=x), 0..8);
	assert_eq!(span_of!(Test, ..y), 0..8);
	assert_eq!(span_of!(Test, ..=y), 0..64);
	assert_eq!(span_of!(Test, ..z), 0..64);
	assert_eq!(span_of!(Test, ..=z), 0..68);
	assert_eq!(span_of!(Test, ..egg), 0..68);
	assert_eq!(span_of!(Test, ..=egg), 0..84);
	assert_eq!(span_of!(Test, ..), 0..mem::size_of::<Test>());
	assert_eq!(
	span_of!(Test, x..),
	offset_of!(Test, x)..mem::size_of::<Test>()
	);
	assert_eq!(
	span_of!(Test, y..),
	offset_of!(Test, y)..mem::size_of::<Test>()
	);

	assert_eq!(
	span_of!(Test, z..),
	offset_of!(Test, z)..mem::size_of::<Test>()
	);
	assert_eq!(
	span_of!(Test, egg..),
	offset_of!(Test, egg)..mem::size_of::<Test>()
	);
	assert_eq!(
	span_of!(Test, x..y),
	offset_of!(Test, x)..offset_of!(Test, y)
	);
	assert_eq!(
	span_of!(Test, x..=y),
	offset_of!(Test, x)..offset_of!(Test, y) + mem::size_of::<[u8; 56]>()
	);
	}
	}