Crate tetsy_scale_codec[−][src]

Tetsy SCALE Codec

Rust implementation of the SCALE (Simple Concatenated Aggregate Little-Endian) data format for types used in the Tetsy Tetcore framework.

SCALE is a light-weight format which allows encoding (and decoding) which makes it highly suitable for resource-constrained execution environments like blockchain runtimes and low-power, low-memory devices.

It is important to note that the encoding context (knowledge of how the types and data structures look) needs to be known separately at both encoding and decoding ends. The encoded data does not include this contextual information.

To get a better understanding of how the encoding is done for different types, take a look at the low-level data formats overview page at the Tetcore docs site.

Implementation

The codec is implemented using the following traits:

Encode

The Encode trait is used for encoding of data into the SCALE format. The Encode trait contains the following functions:

size_hint(&self) -> usize: Gets the capacity (in bytes) required for the encoded data. This is to avoid double-allocation of memory needed for the encoding. It can be an estimate and does not need to be an exact number. If the size is not known, even no good maximum, then we can skip this function from the trait implementation. This is required to be a cheap operation, so should not involve iterations etc.
encode_to<T: Output>(&self, dest: &mut T): Encodes the value and appends it to a destination buffer.
encode(&self) -> Vec<u8>: Encodes the type data and returns a slice.
using_encoded<R, F: FnOnce(&[u8]) -> R>(&self, f: F) -> R: Encodes the type data and executes a closure on the encoded value. Returns the result from the executed closure.

Note: Implementations should override using_encoded for value types and encode_to for allocating types. size_hint should be implemented for all types, wherever possible. Wrapper types should override all methods.

Decode

The Decode trait is used for deserialization/decoding of encoded data into the respective types.

fn decode<I: Input>(value: &mut I) -> Result<Self, Error>: Tries to decode the value from SCALE format to the type it is called on. Returns an Err if the decoding fails.

CompactAs

The CompactAs trait is used for wrapping custom types/structs as compact types, which makes them even more space/memory efficient. The compact encoding is described here.

encode_as(&self) -> &Self::As: Encodes the type (self) as a compact type. The type As is defined in the same trait and its implementation should be compact encode-able.
decode_from(_: Self::As) -> Self: Decodes the type (self) from a compact encode-able type.

HasCompact

The HasCompact trait, if implemented, tells that the corresponding type is a compact encode-able type.

EncodeLike

The EncodeLike trait needs to be implemented for each type manually. When using derive, it is done automatically for you. Basically the trait gives you the opportunity to accept multiple types to a function that all encode to the same representation.

Usage Examples

Following are some examples to demonstrate usage of the codec.

Simple types


use tetsy_scale_codec::{Encode, Decode};

#[derive(Debug, PartialEq, Encode, Decode)]
enum EnumType {
	#[codec(index = "15")]
	A,
	B(u32, u64),
	C {
		a: u32,
		b: u64,
	},
}

let a = EnumType::A;
let b = EnumType::B(1, 2);
let c = EnumType::C { a: 1, b: 2 };

a.using_encoded(|ref slice| {
    assert_eq!(slice, &b"\x0f");
});

b.using_encoded(|ref slice| {
    assert_eq!(slice, &b"\x01\x01\0\0\0\x02\0\0\0\0\0\0\0");
});

c.using_encoded(|ref slice| {
    assert_eq!(slice, &b"\x02\x01\0\0\0\x02\0\0\0\0\0\0\0");
});

let mut da: &[u8] = b"\x0f";
assert_eq!(EnumType::decode(&mut da).ok(), Some(a));

let mut db: &[u8] = b"\x01\x01\0\0\0\x02\0\0\0\0\0\0\0";
assert_eq!(EnumType::decode(&mut db).ok(), Some(b));

let mut dc: &[u8] = b"\x02\x01\0\0\0\x02\0\0\0\0\0\0\0";
assert_eq!(EnumType::decode(&mut dc).ok(), Some(c));

let mut dz: &[u8] = &[0];
assert_eq!(EnumType::decode(&mut dz).ok(), None);

Compact type with HasCompact


use tetsy_scale_codec::{Encode, Decode, Compact, HasCompact};

#[derive(Debug, PartialEq, Encode, Decode)]
struct Test1CompactHasCompact<T: HasCompact> {
    #[codec(compact)]
    bar: T,
}

#[derive(Debug, PartialEq, Encode, Decode)]
struct Test1HasCompact<T: HasCompact> {
    #[codec(encoded_as = "<T as HasCompact>::Type")]
    bar: T,
}

let test_val: (u64, usize) = (0u64, 1usize);

let encoded = Test1HasCompact { bar: test_val.0 }.encode();
assert_eq!(encoded.len(), test_val.1);
assert_eq!(<Test1CompactHasCompact<u64>>::decode(&mut &encoded[..]).unwrap().bar, test_val.0);

Type with CompactAs


use serde_derive::{Serialize, Deserialize};
use tetsy_scale_codec::{Encode, Decode, Compact, HasCompact, CompactAs};

#[cfg_attr(feature = "std", derive(Serialize, Deserialize, Debug))]
#[derive(PartialEq, Eq, Clone)]
struct StructHasCompact(u32);

impl CompactAs for StructHasCompact {
    type As = u32;

    fn encode_as(&self) -> &Self::As {
        &12
    }

    fn decode_from(_: Self::As) -> Self {
        StructHasCompact(12)
    }
}

impl From<Compact<StructHasCompact>> for StructHasCompact {
    fn from(_: Compact<StructHasCompact>) -> Self {
        StructHasCompact(12)
    }
}

#[derive(Debug, PartialEq, Encode, Decode)]
enum TestGenericHasCompact<T> {
    A {
        #[codec(compact)] a: T
    },
}

let a = TestGenericHasCompact::A::<StructHasCompact> {
    a: StructHasCompact(12325678),
};

let encoded = a.encode();
assert_eq!(encoded.len(), 2);

Structs

Compact	Compact-encoded variant of T. This is more space-efficient but less compute-efficient.
Error	Descriptive error type
IoReader	Wrapper that implements Input for any `Read` and `Seek` type.
OptionBool	Shim type because we can't do a specialised implementation for `Option<bool>` directly.

Traits

Codec	Trait that allows zero-copy read/write of value-references to/from slices in LE format.
CompactAs	Allow foreign structs to be wrap in Compact
CompactLen	Something that can return the compact encoded length for a given value.
Decode	Trait that allows zero-copy read of value-references from slices in LE format.
DecodeAll	Extension trait to `Decode` that ensures that the given input data is consumed completly while decoding.
Encode	Trait that allows zero-copy write of value-references to slices in LE format.
EncodeAppend	Trait that allows to append items to an encoded representation without decoding all previous added items.
EncodeAsRef	Something that can be encoded as a reference.
EncodeLike	A marker trait that tells the compiler that two types encode to the same representation.
HasCompact	Trait that tells you if a given type can be encoded/decoded in a compact way.
Input	Trait that allows reading of data into a slice.
Joiner	Trait to allow itself to be serialised into a value which can be extended by bytes.
KeyedVec	Trait to allow itself to be serialised and prepended by a given slice.
Output	Trait that allows writing of data.
WrapperTypeDecode	A marker trait for types that can be created solely from other decodable types.
WrapperTypeEncode	A marker trait for types that wrap other encodable type.