Expand description

A documentation-only module for #[deku] attributes

Scopes

To understand the Scope column of the table below:

#[deku(/* top-level */)]
struct DekuStruct {
    #[deku( /* field */)]
    field: u8,
}

#[deku(/* top-level */)]
enum DekuEnum {
    #[deku(/* variant */)]
    VariantA,

    #[deku(/* variant */)]
    VariantB( #[deku(/* field */)] u8 ),

    #[deku(/* variant */)]
    VariantC {
        #[deku( /* field */)]
        field: u8,
    }
}

List of attributes

AttributeScopeDescription
endiantop-level, fieldSet the endianness
magictop-levelA magic value that must be present at the start of this struct/enum
assertfieldAssert a condition
assert_eqfieldAssert equals on the field
bitsfieldSet the bit-size of the field
bytesfieldSet the byte-size of the field
countfieldSet the field representing the element count of a container
bits_readfieldSet the field representing the number of bits to read into a container
bytes_readfieldSet the field representing the number of bytes to read into a container
untilfieldSet a predicate returning when to stop reading elements into a container
updatefieldApply code over the field when .update() is called
tempfieldRead the field but exclude it from the struct/enum
skipfieldSkip the reading/writing of a field
pad_bytes_beforefieldSkip bytes before reading, pad before writing
pad_bits_beforefieldSkip bits before reading, pad before writing
pad_bytes_afterfieldSkip bytes after reading, pad after writing
pad_bits_afterfieldSkip bits after reading, pad after writing
condfieldConditional expression for the field
defaultfieldProvide default value. Used with skip or cond
mapfieldApply a function over the result of reading
readervariant, fieldCustom reader code
writervariant, fieldCustom writer code
ctxtop-level, fieldContext list for context sensitive parsing
ctx_defaulttop-level, fieldDefault context values
enum: idtop-level, variantenum or variant id value
enum: id_patvariantvariant id match pattern
enum: typetop-levelSet the type of the variant id
enum: bitstop-levelSet the bit-size of the variant id
enum: bytestop-levelSet the byte-size of the variant id

endian

Set to read/write bytes in a specific byte order.

Values: big, little or an expression which returns a Endian

Precedence: field > top-level > system endianness (default)

Example:

// #[deku(endian = "little")] // top-level, defaults to system endianness
struct DekuTest {
    #[deku(endian = "big")] // field-level override
    field_be: u16,
    field_default: u16, // defaults to top-level
}

let data: Vec<u8> = vec![0xAB, 0xCD, 0xAB, 0xCD];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       field_be: 0xABCD,
       field_default: 0xCDAB,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

Note: The endian is passed as a context argument to sub-types

Example:

#[deku(endian = "endian", ctx = "endian: deku::ctx::Endian")] // context passed from `DekuTest` top-level endian
struct Child {
    field_a: u16
}

#[deku(endian = "little")] // top-level, defaults to system endianness
struct DekuTest {
    #[deku(endian = "big")] // field-level override
    field_be: u16,
    field_default: u16, // defaults to top-level

    // because a top-level endian is specified,
    // it is passed as a context
    field_child: Child,
}

let data: Vec<u8> = vec![0xAB, 0xCD, 0xAB, 0xCD, 0xEF, 0xBE];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       field_be: 0xABCD,
       field_default: 0xCDAB,
       field_child: Child { field_a: 0xBEEF }
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

magic

Sets a “magic” value that must be present in the data at the start of a struct/enum when reading, and that is written out of the start of that type’s data when writing.

Example:

#[deku(magic = b"deku")]
struct DekuTest {
    data: u8
}

let data: Vec<u8> = vec![b'd', b'e', b'k', b'u', 50];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { data: 50 },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

assert

Assert a condition after reading and before writing a field

Example:

struct DekuTest {
    #[deku(assert = "*data >= 8")]
    data: u8
}

let data: Vec<u8> = vec![0x00, 0x01, 0x02];

let value = DekuTest::try_from(data.as_ref());

assert_eq!(
    Err(DekuError::Assertion("DekuTest.data field failed assertion: * data >= 8".into())),
    value
);

assert_eq

Assert equals after reading and before writing a field

Example:

struct DekuTest {
    #[deku(assert_eq = "0x01")]
    data: u8,
}

let data: Vec<u8> = vec![0x01];

let mut value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { data: 0x01 },
    value
);

value.data = 0x02;

let value: Result<Vec<u8>, DekuError> = value.try_into();

assert_eq!(
    Err(DekuError::Assertion("DekuTest.data field failed assertion: data == 0x01".into())),
    value
);

bits

Set the bit-size of the field

Note: Cannot be used in combination with bytes

Example:

struct DekuTest {
    #[deku(bits = 2)]
    field_a: u8,
    #[deku(bits = 6)]
    field_b: u8,
    field_c: u8, // defaults to size_of<u8>*8
}

let data: Vec<u8> = vec![0b11_101010, 0xFF];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       field_a: 0b11,
       field_b: 0b101010,
       field_c: 0xFF,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

bytes

Set the byte-size of the field

Note: Cannot be used in combination with bits

Example:

struct DekuTest {
    #[deku(bytes = 2)]
    field_a: u32,
    field_b: u8, // defaults to size_of<u8>
}

let data: Vec<u8> = vec![0xAB, 0xCD, 0xFF];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       field_a: 0xCDAB,
       field_b: 0xFF,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

count

Specify the field representing the length of the container, i.e. a Vec

Example:

struct DekuTest {
    #[deku(update = "self.items.len()")]
    count: u8,
    #[deku(count = "count")]
    items: Vec<u8>,
}

let data: Vec<u8> = vec![0x02, 0xAB, 0xCD];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       count: 0x02,
       items: vec![0xAB, 0xCD],
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

Note: See update for more information on the attribute!

bytes_read

Specify the field representing the total number of bytes to read into a container

See the following example, where InnerDekuTest is 2 bytes, so setting bytes_read to 4 will read 2 items into the container:

struct InnerDekuTest {
    field_a: u8,
    field_b: u8
}

struct DekuTest {
    #[deku(update = "(self.items.len() / 2)")]
    bytes: u8,

    #[deku(bytes_read = "bytes")]
    items: Vec<InnerDekuTest>,
}

let data: Vec<u8> = vec![0x04, 0xAB, 0xBC, 0xDE, 0xEF];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       bytes: 0x04,
       items: vec![
           InnerDekuTest{field_a: 0xAB, field_b: 0xBC},
           InnerDekuTest{field_a: 0xDE, field_b: 0xEF}],
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

Note: See update for more information on the attribute!

bits_read

This is equivalent to bytes_read, however specifies the bit limit instead of a byte limit

until

Specifies a predicate which sets when to stop reading values into the container.

Note: The last value which matches the predicate is read

The predicate is given a borrow to each item as it is read, and must return a boolean as to whether this should be the last item or not. If it returns true, then reading stops.

A good example of this is to read a null-terminated string:

struct DekuTest {
    #[deku(until = "|v: &u8| *v == 0")]
    string: Vec<u8>
}

let data: Vec<u8> = vec![b'H', b'e', b'l', b'l', b'o', 0];
let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        string: CString::new(b"Hello".to_vec()).unwrap().into_bytes_with_nul()
    },
    value
);

update

Specify custom code to run on the field when .update() is called on the struct/enum

Example:

use deku::prelude::*;
use std::convert::{TryInto, TryFrom};
#[derive(Debug, PartialEq, DekuRead, DekuWrite)]
struct DekuTest {
    #[deku(update = "self.items.len()")]
    count: u8,
    #[deku(count = "count")]
    items: Vec<u8>,
}

let data: Vec<u8> = vec![0x02, 0xAB, 0xCD];

// `mut` so it can be updated
let mut value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { count: 0x02, items: vec![0xAB, 0xCD] },
    value
);

// push a new item to the vec
value.items.push(0xFF);

// update it, this will update the `count` field
value.update().unwrap();

assert_eq!(
    DekuTest { count: 0x03, items: vec![0xAB, 0xCD, 0xFF] },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x03, 0xAB, 0xCD, 0xFF], value);

temp

A temporary field

Included in the reading of the struct/enum but not stored

Note: Struct/enum must be derived with #[deku_derive(...)] to derive DekuRead and/or DekuWrite, not with #[derive(...)]. This is because the struct/enum needs to be modified at compile time.

Example:

#[deku_derive(DekuRead, DekuWrite)]
#[derive(Debug, PartialEq)]
struct DekuTest {
    #[deku(temp)]
    num_items: u8,

    #[deku(count = "num_items", endian = "big")]
    items: Vec<u16>,
}

let data: Vec<u8> = vec![0x01, 0xBE, 0xEF];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
       items: vec![0xBEEF]
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0xBE, 0xEF], value);

skip

Skip the reading/writing of a field.

Defaults value to default

Note: Can be paired with cond to have conditional skipping

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    field_a: u8,
    #[deku(skip)]
    field_b: Option<u8>,
    field_c: u8,
}

let data: Vec<u8> = vec![0x01, 0x02];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { field_a: 0x01, field_b: None, field_c: 0x02 },
    value
);

pad_bytes_before

Skip a number of bytes before reading, pad with 0x00s before writing

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
pub struct DekuTest {
    pub field_a: u8,
    #[deku(pad_bytes_before = "2")]
    pub field_b: u8,
}

let data: Vec<u8> = vec![0xAA, 0xBB, 0xCC, 0xDD];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        field_a: 0xAA,
        field_b: 0xDD,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0xAA, 0x00, 0x00, 0xDD], value);

pad_bits_before

Skip a number of bytes before reading, pad with 0s before writing

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    #[deku(bits = 2)]
    field_a: u8,
    #[deku(pad_bits_before = "2", bits = 4)]
    field_b: u8,
}

let data: Vec<u8> = vec![0b10_01_1001];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        field_a: 0b10,
        field_b: 0b1001,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0b10_00_1001], value);

pad_bytes_after

Skip a number of bytes after reading, pad with 0x00s after writing

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
pub struct DekuTest {
    #[deku(pad_bytes_after = "2")]
    pub field_a: u8,
    pub field_b: u8,
}

let data: Vec<u8> = vec![0xAA, 0xBB, 0xCC, 0xDD];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        field_a: 0xAA,
        field_b: 0xDD,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0xAA, 0x00, 0x00, 0xDD], value);

pad_bits_after

Skip a number of bytes after reading, pad with 0s after writing

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    #[deku(bits = 2, pad_bits_after = "2")]
    field_a: u8,
    #[deku(bits = 4)]
    field_b: u8,
}

let data: Vec<u8> = vec![0b10_01_1001];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        field_a: 0b10,
        field_b: 0b1001,
    },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0b10_00_1001], value);

cond

Specify a condition to parse or skip a field

Note: Can be paired with default

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    field_a: u8,
    #[deku(cond = "*field_a == 0x01")]
    field_b: Option<u8>,
    #[deku(cond = "*field_b == Some(0xFF)", default = "Some(0x05)")]
    field_c: Option<u8>,
    #[deku(skip, cond = "*field_a == 0x01", default = "Some(0x06)")]
    field_d: Option<u8>,
}

let data: Vec<u8> = vec![0x01, 0x02];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { field_a: 0x01, field_b: Some(0x02), field_c: Some(0x05), field_d: Some(0x06)},
    value
);

assert_eq!(
    vec![0x01, 0x02, 0x05],
    value.to_bytes().unwrap(),
)

default

Default code tokens used with skip or cond

Defaults to Default::default()

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    field_a: u8,
    #[deku(skip, default = "Some(*field_a)")]
    field_b: Option<u8>,
    field_c: u8,
}

let data: Vec<u8> = vec![0x01, 0x02];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { field_a: 0x01, field_b: Some(0x01), field_c: 0x02 },
    value
);

map

Specify a function or lambda to apply to the result of the read

Example:

Read a u8 and apply a function to convert it to a String.

#[derive(PartialEq, Debug, DekuRead)]
struct DekuTest {
    #[deku(map = "|field: u8| -> Result<_, DekuError> { Ok(field.to_string()) }")]
    field_a: String,
    #[deku(map = "DekuTest::map_field_b")]
    field_b: String,
}

impl DekuTest {
    fn map_field_b(field_b: u8) -> Result<String, DekuError> {
        Ok(field_b.to_string())
    }
}

let data: Vec<u8> = vec![0x01, 0x02];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { field_a: "1".to_string(), field_b: "2".to_string() },
    value
);

reader/writer

Specify custom reader or writer tokens for reading a field or variant

Example:

use std::convert::{TryInto, TryFrom};
use deku::bitvec::{BitSlice, BitVec, Msb0};
use deku::prelude::*;

struct DekuTest {
    #[deku(
        reader = "DekuTest::read(deku::rest)",
        writer = "DekuTest::write(deku::output, &self.field_a)"
    )]
    field_a: String,
}

impl DekuTest {
    /// Read and convert to String
    fn read(
        rest: &BitSlice<Msb0, u8>,
    ) -> Result<(&BitSlice<Msb0, u8>, String), DekuError> {
        let (rest, value) = u8::read(rest, ())?;
        Ok((rest, value.to_string()))
    }

    /// Parse from String to u8 and write
    fn write(output: &mut BitVec<Msb0, u8>, field_a: &str) -> Result<(), DekuError> {
        let value = field_a.parse::<u8>().unwrap();
        value.write(output, ())
    }
}

let data: Vec<u8> = vec![0x01];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest { field_a: "1".to_string() },
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

ctx

This attribute allows sending and receiving context (variables/values) to sub-parsers/writers

Note: endian, bytes, bits, count attributes use ctx internally, see examples below

top-level: The value of a ctx attribute is a function argument list, for example #[deku(ctx = "a: u8, b: String")]

field-level: The value of the ctx attribute is a list of expressions, for example #[deku("a, b")]

Visibility: The following can be accessed:

  1. All former fields which have been parsed (given as a reference).
  2. endian, bytes, bits attributes declared on the top-level
    • These are prepended to the list of ctx variables

Example

#[derive(DekuRead, DekuWrite)]
#[deku(ctx = "a: u8")]
struct Subtype {
    #[deku(map = "|b: u8| -> Result<_, DekuError> { Ok(b + a) }")]
    b: u8
}

#[derive(DekuRead, DekuWrite)]
struct Test {
    a: u8,
    #[deku(ctx = "*a")] // pass `a` to `SubType`, `a` is a reference
    sub: Subtype
}

let data: Vec<u8> = vec![0x01, 0x02];

let (rest, value) = Test::from_bytes((&data[..], 0)).unwrap();
assert_eq!(value.a, 0x01);
assert_eq!(value.sub.b, 0x01 + 0x02)

Note: In addition, endian, bytes and bits use the ctx concept internally, examples below are equivalent:

Example:

struct Type1 {
    #[deku(endian = "big", bits = "1")]
    field: u8,
}

// is equivalent to

struct Type1 {
    #[deku(ctx = "Endian::Big, Size::Bits(1)")]
    field: u8,
}

Example: Adding context

#[deku(endian = "big")]
struct Type1 {
    field_a: u16,
    #[deku(bits = "5", ctx = "*field_a")]
    field_b: SubType,
}

// is equivalent to

struct Type1 {
    #[deku(ctx = "Endian::Big")]
    field_a: u16,
    #[deku(ctx = "Endian::Big, Size::Bits(5), *field_a")] // endian is prepended
    field_b: SubType,
}

ctx_default

When paired with the ctx attribute, ctx_default provides default values for the context

Example:

#[derive(DekuRead, DekuWrite)]
#[deku(ctx = "a: u8", ctx_default = "1")] // Defaults `a` to 1
struct Subtype {
    #[deku(map = "|b: u8| -> Result<_, DekuError> { Ok(b + a) }")]
    b: u8
}

#[derive(DekuRead, DekuWrite)]
struct Test {
    a: u8,
    #[deku(ctx = "*a")] // pass `a` to `SubType`, `a` is a reference
    sub: Subtype
}

let data: Vec<u8> = vec![0x01, 0x02];

// Use with context from `Test`
let (rest, value) = Test::from_bytes((&data[..], 0)).unwrap();
assert_eq!(value.a, 0x01);
assert_eq!(value.sub.b, 0x01 + 0x02);

// Use as a stand-alone container, using defaults
// Note: `from_bytes` is now available on `SubType`
let data: Vec<u8> = vec![0x02];

let (rest, value) = Subtype::from_bytes((&data[..], 0)).unwrap();
assert_eq!(value.b, 0x01 + 0x02)

id

id (top-level)

Specify the enum id

This is useful in cases when the enum id is already consumed or is given externally

Example:

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
struct DekuTest {
    my_id: u8,
    data: u8,
    #[deku(ctx = "*my_id")]
    enum_from_id: MyEnum,
}

#[derive(PartialEq, Debug, DekuRead, DekuWrite)]
#[deku(ctx = "my_id: u8", id = "my_id")]
enum MyEnum {
    #[deku(id = "1")]
    VariantA(u8),
    #[deku(id = "2")]
    VariantB,
}

let data: Vec<u8> = vec![0x01_u8, 0xff, 0xab];
let ret_read = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest {
        my_id: 0x01,
        data: 0xff,
        enum_from_id: MyEnum::VariantA(0xab),
    },
    ret_read
);

let ret_write: Vec<u8> = ret_read.try_into().unwrap();
assert_eq!(ret_write, data)

id (variant)

Specify the identifier of the enum variant, must be paired with type or id (top-level)

Note: - If no id is specified, it is defaulted to the discriminant value. - The discriminant value is retreived using the as keyword.

Example:

#[deku(type = "u8")]
enum DekuTest {
    #[deku(id = "0x01")]
    VariantA(u8),
    #[deku(id = "0x02")]
    VariantB(u8, u16),
}

let data: Vec<u8> = vec![0x01, 0xFF, 0x02, 0xAB, 0xEF, 0xBE];

let (rest, value) = DekuTest::from_bytes((data.as_ref(), 0)).unwrap();

assert_eq!(
    DekuTest::VariantA(0xFF),
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x01, 0xFF], variant_bytes);

let (rest, value) = DekuTest::from_bytes(rest).unwrap();

assert_eq!(
    DekuTest::VariantB(0xAB, 0xBEEF),
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x02, 0xAB, 0xEF, 0xBE], variant_bytes);

Example discriminant

#[deku(type = "u8")]
enum DekuTest {
    VariantA = 0x01,
    VariantB,
}

let data: Vec<u8> = vec![0x01, 0x02];

let (rest, value) = DekuTest::from_bytes((data.as_ref(), 0)).unwrap();

assert_eq!(
    DekuTest::VariantA,
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x01], variant_bytes);

let (rest, value) = DekuTest::from_bytes(rest).unwrap();

assert_eq!(
    DekuTest::VariantB,
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x02], variant_bytes);

id_pat

Specify the identifier in the form of a match pattern for the enum variant.

The enum variant must have space to store the identifier for proper writing.

Example:

#[deku(type = "u8")]
enum DekuTest {
    #[deku(id = "0x01")]
    VariantA(u8),
    #[deku(id_pat = "0x02..=0x06")]
    VariantB {
        id: u8
    },
    #[deku(id_pat = "_")]
    VariantC(u8),
}

let data: Vec<u8> = vec![0x03, 0xFF];

let (rest, value) = DekuTest::from_bytes((data.as_ref(), 0)).unwrap();

assert_eq!(
    DekuTest::VariantB { id: 0x03 },
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0x03], variant_bytes);

let (rest, value) = DekuTest::from_bytes(rest).unwrap();

assert_eq!(
    DekuTest::VariantC(0xFF),
    value
);

let variant_bytes: Vec<u8> = value.try_into().unwrap();
assert_eq!(vec![0xFF], variant_bytes);

type

Specify the type of the enum variant id to consume, see example

bits

Set the bit size of the enum variant id

Note: Cannot be used in combination with bytes

Example:

#[deku(type = "u8", bits = "4")]
enum DekuTest {
    #[deku(id = "0b1001")]
    VariantA( #[deku(bits = "4")] u8, u8),
}

let data: Vec<u8> = vec![0b1001_0110, 0xFF];

let (rest, value) = DekuTest::from_bytes((&data, 0)).unwrap();

assert_eq!(
    DekuTest::VariantA(0b0110, 0xFF),
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);

bytes

Set the byte size of the enum variant id

Note: Cannot be used in combination with bits

Example:

#[deku(type = "u32", bytes = "2")]
enum DekuTest {
    #[deku(id = "0xBEEF")]
    VariantA(u8),
}

let data: Vec<u8> = vec![0xEF, 0xBE, 0xFF];

let value = DekuTest::try_from(data.as_ref()).unwrap();

assert_eq!(
    DekuTest::VariantA(0xFF),
    value
);

let value: Vec<u8> = value.try_into().unwrap();
assert_eq!(data, value);