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SSL int.rs Sprache: unbekannt |
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use std::io::Write;
use std::mem::size_of; use super::Options; use de::read::BincodeRead; use error::{ErrorKind, Result}; pub trait IntEncoding { /// Gets the size (in bytes) that a value would be serialized to. fn u16_size(n: u16) -> u64; /// Gets the size (in bytes) that a value would be serialized to. fn u32_size(n: u32) -> u64; /// Gets the size (in bytes) that a value would be serialized to. fn u64_size(n: u64) -> u64; /// Gets the size (in bytes) that a value would be serialized to. fn i16_size(n: i16) -> u64; /// Gets the size (in bytes) that a value would be serialized to. fn i32_size(n: i32) -> u64; /// Gets the size (in bytes) that a value would be serialized to. fn i64_size(n: i64) -> u64; #[inline(always)] fn len_size(len: usize) -> u64 { Self::u64_size(len as u64) } /// Serializes a sequence length. #[inline(always)] fn serialize_len<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, len: usize, ) -> Result<()> { Self::serialize_u64(ser, len as u64) } fn serialize_u16<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: u16, ) -> Result<()>; fn serialize_u32<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: u32, ) -> Result<()>; fn serialize_u64<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: u64, ) -> Result<()>; fn serialize_i16<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: i16, ) -> Result<()>; fn serialize_i32<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: i32, ) -> Result<()>; fn serialize_i64<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, val: i64, ) -> Result<()>; /// Deserializes a sequence length. #[inline(always)] fn deserialize_len<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<usize> { Self::deserialize_u64(de).and_then(cast_u64_to_usize) } fn deserialize_u16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<u16>; fn deserialize_u32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<u32>; fn deserialize_u64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<u64>; fn deserialize_i16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<i16>; fn deserialize_i32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<i32>; fn deserialize_i64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<i64>; serde_if_integer128! { fn u128_size(v: u128) -> u64; fn i128_size(v: i128) -> u64; fn serialize_u128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: u128, ) -> Result<()>; fn deserialize_u128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u128>; fn serialize_i128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: i128, ) -> Result<()>; fn deserialize_i128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i128>; } } /// Fixed-size integer encoding. /// /// * Fixed size integers are encoded directly /// * Enum discriminants are encoded as u32 /// * Lengths and usize are encoded as u64 #[derive(Copy, Clone)] pub struct FixintEncoding; /// Variable-size integer encoding (excepting [ui]8). /// /// Encoding an unsigned integer v (of any type excepting u8) works as follows: /// /// 1. If `u < 251`, encode it as a single byte with that value. /// 2. If `251 <= u < 2**16`, encode it as a literal byte 251, followed by a u16 with value `u`. /// 3. If `2**16 <= u < 2**32`, encode it as a literal byte 252, followed by a u32 with value `u`. /// 4. If `2**32 <= u < 2**64`, encode it as a literal byte 253, followed by a u64 with value `u`. /// 5. If `2**64 <= u < 2**128`, encode it as a literal byte 254, followed by a /// u128 with value `u`. /// /// Then, for signed integers, we first convert to unsigned using the zigzag algorithm, /// and then encode them as we do for unsigned integers generally. The reason we use this /// algorithm is that it encodes those values which are close to zero in less bytes; the /// obvious algorithm, where we encode the cast values, gives a very large encoding for all /// negative values. /// /// The zigzag algorithm is defined as follows: /// /// ```ignore /// fn zigzag(v: Signed) -> Unsigned { /// match v { /// 0 => 0, /// v if v < 0 => |v| * 2 - 1 /// v if v > 0 => v * 2 /// } /// } /// ``` /// /// And works such that: /// /// ```ignore /// assert_eq!(zigzag(0), 0); /// assert_eq!(zigzag(-1), 1); /// assert_eq!(zigzag(1), 2); /// assert_eq!(zigzag(-2), 3); /// assert_eq!(zigzag(2), 4); /// assert_eq!(zigzag(i64::min_value()), u64::max_value()); /// ``` /// /// Note that u256 and the like are unsupported by this format; if and when they are added to the /// language, they may be supported via the extension point given by the 255 byte. #[derive(Copy, Clone)] pub struct VarintEncoding; const SINGLE_BYTE_MAX: u8 = 250; const U16_BYTE: u8 = 251; const U32_BYTE: u8 = 252; const U64_BYTE: u8 = 253; const U128_BYTE: u8 = 254; const DESERIALIZE_EXTENSION_POINT_ERR: &str = r#" Byte 255 is treated as an extension point; it should not be encoding anything. Do you have a mismatched bincode version or configuration? "#; impl VarintEncoding { fn varint_size(n: u64) -> u64 { if n <= SINGLE_BYTE_MAX as u64 { 1 } else if n <= u16::max_value() as u64 { (1 + size_of::<u16>()) as u64 } else if n <= u32::max_value() as u64 { (1 + size_of::<u32>()) as u64 } else { (1 + size_of::<u64>()) as u64 } } #[inline(always)] fn zigzag_encode(n: i64) -> u64 { if n < 0 { // let's avoid the edge case of i64::min_value() // !n is equal to `-n - 1`, so this is: // !n * 2 + 1 = 2(-n - 1) + 1 = -2n - 2 + 1 = -2n - 1 !(n as u64) * 2 + 1 } else { (n as u64) * 2 } } #[inline(always)] fn zigzag_decode(n: u64) -> i64 { if n % 2 == 0 { // positive number (n / 2) as i64 } else { // negative number // !m * 2 + 1 = n // !m * 2 = n - 1 // !m = (n - 1) / 2 // m = !((n - 1) / 2) // since we have n is odd, we have floor(n / 2) = floor((n - 1) / 2) !(n / 2) as i64 } } fn serialize_varint<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, n: u64, ) -> Result<()> { if n <= SINGLE_BYTE_MAX as u64 { ser.serialize_byte(n as u8) } else if n <= u16::max_value() as u64 { ser.serialize_byte(U16_BYTE)?; ser.serialize_literal_u16(n as u16) } else if n <= u32::max_value() as u64 { ser.serialize_byte(U32_BYTE)?; ser.serialize_literal_u32(n as u32) } else { ser.serialize_byte(U64_BYTE)?; ser.serialize_literal_u64(n as u64) } } fn deserialize_varint<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<u64> { #[allow(ellipsis_inclusive_range_patterns)] match de.deserialize_byte()? { byte @ 0...SINGLE_BYTE_MAX => Ok(byte as u64), U16_BYTE => Ok(de.deserialize_literal_u16()? as u64), U32_BYTE => Ok(de.deserialize_literal_u32()? as u64), U64_BYTE => de.deserialize_literal_u64(), U128_BYTE => Err(Box::new(ErrorKind::Custom( "Invalid value (u128 range): you may have a version or configuration disagreement?" .to_string(), ))), _ => Err(Box::new(ErrorKind::Custom( DESERIALIZE_EXTENSION_POINT_ERR.to_string(), ))), } } serde_if_integer128! { // see zigzag_encode and zigzag_decode for implementation comments #[inline(always)] fn zigzag128_encode(n: i128) -> u128 { if n < 0 { !(n as u128) * 2 + 1 } else { (n as u128) * 2 } } #[inline(always)] fn zigzag128_decode(n: u128) -> i128 { if n % 2 == 0 { (n / 2) as i128 } else { !(n / 2) as i128 } } fn varint128_size(n: u128) -> u64 { if n <= SINGLE_BYTE_MAX as u128 { 1 } else if n <= u16::max_value() as u128 { (1 + size_of::<u16>()) as u64 } else if n <= u32::max_value() as u128 { (1 + size_of::<u32>()) as u64 } else if n <= u64::max_value() as u128 { (1 + size_of::<u64>()) as u64 } else { (1 + size_of::<u128>()) as u64 } } fn serialize_varint128<W: Write, O: Options>( ser: &mut ::ser::Serializer<W, O>, n: u128, ) -> Result<()> { if n <= SINGLE_BYTE_MAX as u128 { ser.serialize_byte(n as u8) } else if n <= u16::max_value() as u128 { ser.serialize_byte(U16_BYTE)?; ser.serialize_literal_u16(n as u16) } else if n <= u32::max_value() as u128 { ser.serialize_byte(U32_BYTE)?; ser.serialize_literal_u32(n as u32) } else if n <= u64::max_value() as u128 { ser.serialize_byte(U64_BYTE)?; ser.serialize_literal_u64(n as u64) } else { ser.serialize_byte(U128_BYTE)?; ser.serialize_literal_u128(n) } } fn deserialize_varint128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::de::Deserializer<R, O>, ) -> Result<u128> { #[allow(ellipsis_inclusive_range_patterns)] match de.deserialize_byte()? { byte @ 0...SINGLE_BYTE_MAX => Ok(byte as u128), U16_BYTE => Ok(de.deserialize_literal_u16()? as u128), U32_BYTE => Ok(de.deserialize_literal_u32()? as u128), U64_BYTE => Ok(de.deserialize_literal_u64()? as u128), U128_BYTE => de.deserialize_literal_u128(), _ => Err(Box::new(ErrorKind::Custom(DESERIALIZE_EXTENSION_POINT_ERR.to_string()))), } } } } impl IntEncoding for FixintEncoding { #[inline(always)] fn u16_size(_: u16) -> u64 { size_of::<u16>() as u64 } #[inline(always)] fn u32_size(_: u32) -> u64 { size_of::<u32>() as u64 } #[inline(always)] fn u64_size(_: u64) -> u64 { size_of::<u64>() as u64 } #[inline(always)] fn i16_size(_: i16) -> u64 { size_of::<i16>() as u64 } #[inline(always)] fn i32_size(_: i32) -> u64 { size_of::<i32>() as u64 } #[inline(always)] fn i64_size(_: i64) -> u64 { size_of::<i64>() as u64 } #[inline(always)] fn serialize_u16<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u16) -> Result<()> { ser.serialize_literal_u16(val) } #[inline(always)] fn serialize_u32<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u32) -> Result<()> { ser.serialize_literal_u32(val) } #[inline(always)] fn serialize_u64<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u64) -> Result<()> { ser.serialize_literal_u64(val) } #[inline(always)] fn serialize_i16<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i16) -> Result<()> { ser.serialize_literal_u16(val as u16) } #[inline(always)] fn serialize_i32<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i32) -> Result<()> { ser.serialize_literal_u32(val as u32) } #[inline(always)] fn serialize_i64<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i64) -> Result<()> { ser.serialize_literal_u64(val as u64) } #[inline(always)] fn deserialize_u16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u16> { de.deserialize_literal_u16() } #[inline(always)] fn deserialize_u32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u32> { de.deserialize_literal_u32() } #[inline(always)] fn deserialize_u64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u64> { de.deserialize_literal_u64() } #[inline(always)] fn deserialize_i16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i16> { Ok(de.deserialize_literal_u16()? as i16) } #[inline(always)] fn deserialize_i32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i32> { Ok(de.deserialize_literal_u32()? as i32) } #[inline(always)] fn deserialize_i64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i64> { Ok(de.deserialize_literal_u64()? as i64) } serde_if_integer128! { #[inline(always)] fn u128_size(_: u128) -> u64{ size_of::<u128>() as u64 } #[inline(always)] fn i128_size(_: i128) -> u64{ size_of::<i128>() as u64 } #[inline(always)] fn serialize_u128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: u128, ) -> Result<()> { ser.serialize_literal_u128(val) } #[inline(always)] fn serialize_i128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: i128, ) -> Result<()> { ser.serialize_literal_u128(val as u128) } #[inline(always)] fn deserialize_u128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u128> { de.deserialize_literal_u128() } #[inline(always)] fn deserialize_i128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i128> { Ok(de.deserialize_literal_u128()? as i128) } } } impl IntEncoding for VarintEncoding { #[inline(always)] fn u16_size(n: u16) -> u64 { Self::varint_size(n as u64) } #[inline(always)] fn u32_size(n: u32) -> u64 { Self::varint_size(n as u64) } #[inline(always)] fn u64_size(n: u64) -> u64 { Self::varint_size(n) } #[inline(always)] fn i16_size(n: i16) -> u64 { Self::varint_size(Self::zigzag_encode(n as i64)) } #[inline(always)] fn i32_size(n: i32) -> u64 { Self::varint_size(Self::zigzag_encode(n as i64)) } #[inline(always)] fn i64_size(n: i64) -> u64 { Self::varint_size(Self::zigzag_encode(n)) } #[inline(always)] fn serialize_u16<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u16) -> Result<()> { Self::serialize_varint(ser, val as u64) } #[inline(always)] fn serialize_u32<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u32) -> Result<()> { Self::serialize_varint(ser, val as u64) } #[inline(always)] fn serialize_u64<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: u64) -> Result<()> { Self::serialize_varint(ser, val) } #[inline(always)] fn serialize_i16<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i16) -> Result<()> { Self::serialize_varint(ser, Self::zigzag_encode(val as i64)) } #[inline(always)] fn serialize_i32<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i32) -> Result<()> { Self::serialize_varint(ser, Self::zigzag_encode(val as i64)) } #[inline(always)] fn serialize_i64<W: Write, O: Options>(ser: &mut ::Serializer<W, O>, val: i64) -> Result<()> { Self::serialize_varint(ser, Self::zigzag_encode(val)) } #[inline(always)] fn deserialize_u16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u16> { Self::deserialize_varint(de).and_then(cast_u64_to_u16) } #[inline(always)] fn deserialize_u32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u32> { Self::deserialize_varint(de).and_then(cast_u64_to_u32) } #[inline(always)] fn deserialize_u64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u64> { Self::deserialize_varint(de) } #[inline(always)] fn deserialize_i16<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i16> { Self::deserialize_varint(de) .map(Self::zigzag_decode) .and_then(cast_i64_to_i16) } #[inline(always)] fn deserialize_i32<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i32> { Self::deserialize_varint(de) .map(Self::zigzag_decode) .and_then(cast_i64_to_i32) } #[inline(always)] fn deserialize_i64<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i64> { Self::deserialize_varint(de).map(Self::zigzag_decode) } serde_if_integer128! { #[inline(always)] fn u128_size(n: u128) -> u64 { Self::varint128_size(n) } #[inline(always)] fn i128_size(n: i128) -> u64 { Self::varint128_size(Self::zigzag128_encode(n)) } #[inline(always)] fn serialize_u128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: u128, ) -> Result<()> { Self::serialize_varint128(ser, val) } #[inline(always)] fn serialize_i128<W: Write, O: Options>( ser: &mut ::Serializer<W, O>, val: i128, ) -> Result<()> { Self::serialize_varint128(ser, Self::zigzag128_encode(val)) } #[inline(always)] fn deserialize_u128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<u128> { Self::deserialize_varint128(de) } #[inline(always)] fn deserialize_i128<'de, R: BincodeRead<'de>, O: Options>( de: &mut ::Deserializer<R, O>, ) -> Result<i128> { Self::deserialize_varint128(de).map(Self::zigzag128_decode) } } } fn cast_u64_to_usize(n: u64) -> Result<usize> { if n <= usize::max_value() as u64 { Ok(n as usize) } else { Err(Box::new(ErrorKind::Custom(format!( "Invalid size {}: sizes must fit in a usize (0 to {})", n, usize::max_value() )))) } } fn cast_u64_to_u32(n: u64) -> Result<u32> { if n <= u32::max_value() as u64 { Ok(n as u32) } else { Err(Box::new(ErrorKind::Custom(format!( "Invalid u32 {}: you may have a version disagreement?", n, )))) } } fn cast_u64_to_u16(n: u64) -> Result<u16> { if n <= u16::max_value() as u64 { Ok(n as u16) } else { Err(Box::new(ErrorKind::Custom(format!( "Invalid u16 {}: you may have a version disagreement?", n, )))) } } fn cast_i64_to_i32(n: i64) -> Result<i32> { if n <= i32::max_value() as i64 && n >= i32::min_value() as i64 { Ok(n as i32) } else { Err(Box::new(ErrorKind::Custom(format!( "Invalid i32 {}: you may have a version disagreement?", n, )))) } } fn cast_i64_to_i16(n: i64) -> Result<i16> { if n <= i16::max_value() as i64 && n >= i16::min_value() as i64 { Ok(n as i16) } else { Err(Box::new(ErrorKind::Custom(format!( "Invalid i16 {}: you may have a version disagreement?", n, )))) } } #[cfg(test)] mod test { use super::VarintEncoding; #[test] fn test_zigzag_encode() { let zigzag = VarintEncoding::zigzag_encode; assert_eq!(zigzag(0), 0); for x in 1..512 { assert_eq!(zigzag(x), (x as u64) * 2); assert_eq!(zigzag(-x), (x as u64) * 2 - 1); } } #[test] fn test_zigzag_decode() { // zigzag' let zigzagp = VarintEncoding::zigzag_decode; for x in (0..512).map(|x| x * 2) { assert_eq!(zigzagp(x), x as i64 / 2); assert_eq!(zigzagp(x + 1), -(x as i64) / 2 - 1); } } #[test] fn test_zigzag_edge_cases() { let (zigzag, zigzagp) = (VarintEncoding::zigzag_encode, VarintEncoding::zigzag_decode assert_eq!(zigzag(i64::max_value()), u64::max_value() - 1); assert_eq!(zigzag(i64::min_value()), u64::max_value()); assert_eq!(zigzagp(u64::max_value() - 1), i64::max_value()); assert_eq!(zigzagp(u64::max_value()), i64::min_value()); } } [ Verzeichnis aufwärts0.17unsichere Verbindung Übersetzung europäischer Sprachen durch Browser ] |
2026-04-02