vendor/windows-0.48.0/src/core/guid.rs - toolchain/rustc - Git at Google

 #![allow(clippy::many_single_char_names)]

 use super::*;
 use imp::*;

 /// A globally unique identifier ([GUID](https://docs.microsoft.com/en-us/windows/win32/api/guiddef/ns-guiddef-guid))
 /// used to identify COM and WinRT interfaces.
 #[repr(C)]
 #[derive(Clone, Copy, Default, PartialEq, Eq, Hash)]
 pub struct GUID {
     pub data1: u32,
     pub data2: u16,
     pub data3: u16,
     pub data4: [u8; 8],
 }

 impl GUID {
     /// Creates a unique `GUID` value.
     pub fn new() -> Result<Self> {
         let mut result = Self::zeroed();
         unsafe { CoCreateGuid(&mut result).and_then(|| result) }
     }

     /// Creates a `GUID` represented by the all-zero byte-pattern.
     pub const fn zeroed() -> Self {
         Self { data1: 0, data2: 0, data3: 0, data4: [0, 0, 0, 0, 0, 0, 0, 0] }
     }

     /// Creates a `GUID` with the given constant values.
     pub const fn from_values(data1: u32, data2: u16, data3: u16, data4: [u8; 8]) -> Self {
         Self { data1, data2, data3, data4 }
     }

     /// Creates a `GUID` from a `u128` value.
     pub const fn from_u128(uuid: u128) -> Self {
         Self { data1: (uuid >> 96) as u32, data2: (uuid >> 80 & 0xffff) as u16, data3: (uuid >> 64 & 0xffff) as u16, data4: (uuid as u64).to_be_bytes() }
     }

     /// Converts a `GUID` to a `u128` value.
     pub const fn to_u128(&self) -> u128 {
         ((self.data1 as u128) << 96) + ((self.data2 as u128) << 80) + ((self.data3 as u128) << 64) + u64::from_be_bytes(self.data4) as u128
     }

     /// Creates a `GUID` for a "generic" WinRT type.
     pub const fn from_signature(signature: imp::ConstBuffer) -> Self {
         let data = imp::ConstBuffer::from_slice(&[0x11, 0xf4, 0x7a, 0xd5, 0x7b, 0x73, 0x42, 0xc0, 0xab, 0xae, 0x87, 0x8b, 0x1e, 0x16, 0xad, 0xee]);

         let data = data.push_other(signature);

         let bytes = sha1(&data).bytes();
         let first = u32::from_be_bytes([bytes[0], bytes[1], bytes[2], bytes[3]]);

         let second = u16::from_be_bytes([bytes[4], bytes[5]]);
         let mut third = u16::from_be_bytes([bytes[6], bytes[7]]);
         third = (third & 0x0fff) | (5 << 12);
         let fourth = (bytes[8] & 0x3f) | 0x80;

         Self::from_values(first, second, third, [fourth, bytes[9], bytes[10], bytes[11], bytes[12], bytes[13], bytes[14], bytes[15]])
     }
 }

 impl RuntimeType for GUID {
     const SIGNATURE: imp::ConstBuffer = imp::ConstBuffer::from_slice(b"g16");
 }

 impl TypeKind for GUID {
     type TypeKind = CopyType;
 }

 impl std::fmt::Debug for GUID {
     fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
         write!(f, "{:08X?}-{:04X?}-{:04X?}-{:02X?}{:02X?}-{:02X?}{:02X?}{:02X?}{:02X?}{:02X?}{:02X?}", self.data1, self.data2, self.data3, self.data4[0], self.data4[1], self.data4[2], self.data4[3], self.data4[4], self.data4[5], self.data4[6], self.data4[7])
     }
 }

 impl std::convert::From<&str> for GUID {
     fn from(value: &str) -> Self {
         assert!(value.len() == 36, "Invalid GUID string");
         let mut bytes = value.bytes();

         let a = ((bytes.next_u32() * 16 + bytes.next_u32()) << 24) + ((bytes.next_u32() * 16 + bytes.next_u32()) << 16) + ((bytes.next_u32() * 16 + bytes.next_u32()) << 8) + bytes.next_u32() * 16 + bytes.next_u32();
         assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
         let b = ((bytes.next_u16() * 16 + (bytes.next_u16())) << 8) + bytes.next_u16() * 16 + bytes.next_u16();
         assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
         let c = ((bytes.next_u16() * 16 + bytes.next_u16()) << 8) + bytes.next_u16() * 16 + bytes.next_u16();
         assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
         let d = bytes.next_u8() * 16 + bytes.next_u8();
         let e = bytes.next_u8() * 16 + bytes.next_u8();
         assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");

         let f = bytes.next_u8() * 16 + bytes.next_u8();
         let g = bytes.next_u8() * 16 + bytes.next_u8();
         let h = bytes.next_u8() * 16 + bytes.next_u8();
         let i = bytes.next_u8() * 16 + bytes.next_u8();
         let j = bytes.next_u8() * 16 + bytes.next_u8();
         let k = bytes.next_u8() * 16 + bytes.next_u8();

         Self::from_values(a, b, c, [d, e, f, g, h, i, j, k])
     }
 }

 impl std::convert::From<u128> for GUID {
     fn from(value: u128) -> Self {
         Self::from_u128(value)
     }
 }

 impl std::convert::From<GUID> for u128 {
     fn from(value: GUID) -> Self {
         value.to_u128()
     }
 }

 trait HexReader {
     fn next_u8(&mut self) -> u8;
     fn next_u16(&mut self) -> u16;
     fn next_u32(&mut self) -> u32;
 }

 impl HexReader for std::str::Bytes<'_> {
     fn next_u8(&mut self) -> u8 {
         let value = self.next().unwrap();
         match value {
             b'0'..=b'9' => value - b'0',
             b'A'..=b'F' => 10 + value - b'A',
             b'a'..=b'f' => 10 + value - b'a',
             _ => panic!(),
         }
     }

     fn next_u16(&mut self) -> u16 {
         self.next_u8().into()
     }

     fn next_u32(&mut self) -> u32 {
         self.next_u8().into()
     }
 }
	#![allow(clippy::many_single_char_names)]

	use super::*;
	use imp::*;

	/// A globally unique identifier ([GUID](https://docs.microsoft.com/en-us/windows/win32/api/guiddef/ns-guiddef-guid))
	/// used to identify COM and WinRT interfaces.
	#[repr(C)]
	#[derive(Clone, Copy, Default, PartialEq, Eq, Hash)]
	pub struct GUID {
	pub data1: u32,
	pub data2: u16,
	pub data3: u16,
	pub data4: [u8; 8],
	}

	impl GUID {
	/// Creates a unique `GUID` value.
	pub fn new() -> Result<Self> {
	let mut result = Self::zeroed();
	unsafe { CoCreateGuid(&mut result).and_then(\|\| result) }
	}

	/// Creates a `GUID` represented by the all-zero byte-pattern.
	pub const fn zeroed() -> Self {
	Self { data1: 0, data2: 0, data3: 0, data4: [0, 0, 0, 0, 0, 0, 0, 0] }
	}

	/// Creates a `GUID` with the given constant values.
	pub const fn from_values(data1: u32, data2: u16, data3: u16, data4: [u8; 8]) -> Self {
	Self { data1, data2, data3, data4 }
	}

	/// Creates a `GUID` from a `u128` value.
	pub const fn from_u128(uuid: u128) -> Self {
	Self { data1: (uuid >> 96) as u32, data2: (uuid >> 80 & 0xffff) as u16, data3: (uuid >> 64 & 0xffff) as u16, data4: (uuid as u64).to_be_bytes() }
	}

	/// Converts a `GUID` to a `u128` value.
	pub const fn to_u128(&self) -> u128 {
	((self.data1 as u128) << 96) + ((self.data2 as u128) << 80) + ((self.data3 as u128) << 64) + u64::from_be_bytes(self.data4) as u128
	}

	/// Creates a `GUID` for a "generic" WinRT type.
	pub const fn from_signature(signature: imp::ConstBuffer) -> Self {
	let data = imp::ConstBuffer::from_slice(&[0x11, 0xf4, 0x7a, 0xd5, 0x7b, 0x73, 0x42, 0xc0, 0xab, 0xae, 0x87, 0x8b, 0x1e, 0x16, 0xad, 0xee]);

	let data = data.push_other(signature);

	let bytes = sha1(&data).bytes();
	let first = u32::from_be_bytes([bytes[0], bytes[1], bytes[2], bytes[3]]);

	let second = u16::from_be_bytes([bytes[4], bytes[5]]);
	let mut third = u16::from_be_bytes([bytes[6], bytes[7]]);
	third = (third & 0x0fff) \| (5 << 12);
	let fourth = (bytes[8] & 0x3f) \| 0x80;

	Self::from_values(first, second, third, [fourth, bytes[9], bytes[10], bytes[11], bytes[12], bytes[13], bytes[14], bytes[15]])
	}
	}

	impl RuntimeType for GUID {
	const SIGNATURE: imp::ConstBuffer = imp::ConstBuffer::from_slice(b"g16");
	}

	impl TypeKind for GUID {
	type TypeKind = CopyType;
	}

	impl std::fmt::Debug for GUID {
	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
	write!(f, "{:08X?}-{:04X?}-{:04X?}-{:02X?}{:02X?}-{:02X?}{:02X?}{:02X?}{:02X?}{:02X?}{:02X?}", self.data1, self.data2, self.data3, self.data4[0], self.data4[1], self.data4[2], self.data4[3], self.data4[4], self.data4[5], self.data4[6], self.data4[7])
	}
	}

	impl std::convert::From<&str> for GUID {
	fn from(value: &str) -> Self {
	assert!(value.len() == 36, "Invalid GUID string");
	let mut bytes = value.bytes();

	let a = ((bytes.next_u32() * 16 + bytes.next_u32()) << 24) + ((bytes.next_u32() * 16 + bytes.next_u32()) << 16) + ((bytes.next_u32() * 16 + bytes.next_u32()) << 8) + bytes.next_u32() * 16 + bytes.next_u32();
	assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
	let b = ((bytes.next_u16() * 16 + (bytes.next_u16())) << 8) + bytes.next_u16() * 16 + bytes.next_u16();
	assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
	let c = ((bytes.next_u16() * 16 + bytes.next_u16()) << 8) + bytes.next_u16() * 16 + bytes.next_u16();
	assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");
	let d = bytes.next_u8() * 16 + bytes.next_u8();
	let e = bytes.next_u8() * 16 + bytes.next_u8();
	assert!(bytes.next().unwrap() == b'-', "Invalid GUID string");

	let f = bytes.next_u8() * 16 + bytes.next_u8();
	let g = bytes.next_u8() * 16 + bytes.next_u8();
	let h = bytes.next_u8() * 16 + bytes.next_u8();
	let i = bytes.next_u8() * 16 + bytes.next_u8();
	let j = bytes.next_u8() * 16 + bytes.next_u8();
	let k = bytes.next_u8() * 16 + bytes.next_u8();

	Self::from_values(a, b, c, [d, e, f, g, h, i, j, k])
	}
	}

	impl std::convert::From<u128> for GUID {
	fn from(value: u128) -> Self {
	Self::from_u128(value)
	}
	}

	impl std::convert::From<GUID> for u128 {
	fn from(value: GUID) -> Self {
	value.to_u128()
	}
	}

	trait HexReader {
	fn next_u8(&mut self) -> u8;
	fn next_u16(&mut self) -> u16;
	fn next_u32(&mut self) -> u32;
	}

	impl HexReader for std::str::Bytes<'_> {
	fn next_u8(&mut self) -> u8 {
	let value = self.next().unwrap();
	match value {
	b'0'..=b'9' => value - b'0',
	b'A'..=b'F' => 10 + value - b'A',
	b'a'..=b'f' => 10 + value - b'a',
	_ => panic!(),
	}
	}

	fn next_u16(&mut self) -> u16 {
	self.next_u8().into()
	}

	fn next_u32(&mut self) -> u32 {
	self.next_u8().into()
	}
	}