proto3-wire-1.0.0: A low-level implementation of the Protocol Buffers (version 3) wire format

Safe HaskellNone
LanguageHaskell2010

Proto3.Wire.Encode

Contents

Description

Low level functions for writing the protobufs wire format.

Because protobuf messages are encoded as a collection of fields, one can use the Monoid instance for MessageBuilder to encode multiple fields.

One should be careful to make sure that FieldNumbers appear in increasing order.

In protocol buffers version 3, all fields are optional. To omit a value for a field, simply do not append it to the MessageBuilder. One can create functions for wrapping optional fields with a Maybe type.

Similarly, repeated fields can be encoded by concatenating several values with the same FieldNumber.

For example:

strings :: Foldable f => FieldNumber -> f String -> MessageBuilder
strings = foldMap . string

1 `strings` Just "some string" <>
2 `strings` [ "foo", "bar", "baz" ]
Synopsis

MessageBuilder type

data MessageBuilder Source #

A MessageBuilder represents a serialized protobuf message

Use the utilities provided by this module to create MessageBuilders

You can concatenate two messages using the Monoid instance for MessageBuilder

Use toLazyByteString when you're done assembling the MessageBuilder

messageLength :: MessageBuilder -> Word Source #

Retrieve the length of a message, in bytes

toLazyByteString :: MessageBuilder -> ByteString Source #

Convert a message to a lazy ByteString

unsafeFromLazyByteString :: ByteString -> MessageBuilder Source #

This lets you cast an arbitrary ByteString to a MessageBuilder, whether or not the ByteString corresponds to a valid serialized protobuf message

Do not use this function unless you know what you're doing because it lets you assemble malformed protobuf MessageBuilders

Standard Integers

int32 :: FieldNumber -> Int32 -> MessageBuilder Source #

Encode a 32-bit "standard" integer

For example:

>>> 1 `int32` 42
Proto3.Wire.Encode.unsafeFromLazyByteString "\b*"

int64 :: FieldNumber -> Int64 -> MessageBuilder Source #

Encode a 64-bit "standard" integer

For example:

>>> 1 `int64` (-42)
Proto3.Wire.Encode.unsafeFromLazyByteString "\b\214\255\255\255\255\255\255\255\255\SOH"

Unsigned Integers

uint32 :: FieldNumber -> Word32 -> MessageBuilder Source #

Encode a 32-bit unsigned integer

For example:

>>> 1 `uint32` 42
Proto3.Wire.Encode.unsafeFromLazyByteString "\b*"

uint64 :: FieldNumber -> Word64 -> MessageBuilder Source #

Encode a 64-bit unsigned integer

For example:

>>> 1 `uint64` 42
Proto3.Wire.Encode.unsafeFromLazyByteString "\b*"

Signed Integers

sint32 :: FieldNumber -> Int32 -> MessageBuilder Source #

Encode a 32-bit signed integer

For example:

>>> 1 `sint32` (-42)
Proto3.Wire.Encode.unsafeFromLazyByteString "\bS"

sint64 :: FieldNumber -> Int64 -> MessageBuilder Source #

Encode a 64-bit signed integer

For example:

>>> 1 `sint64` (-42)
Proto3.Wire.Encode.unsafeFromLazyByteString "\bS"

Non-varint Numbers

fixed32 :: FieldNumber -> Word32 -> MessageBuilder Source #

Encode a fixed-width 32-bit integer

For example:

>>> 1 `fixed32` 42
Proto3.Wire.Encode.unsafeFromLazyByteString "\r*\NUL\NUL\NUL"

fixed64 :: FieldNumber -> Word64 -> MessageBuilder Source #

Encode a fixed-width 64-bit integer

For example:

>>> 1 `fixed64` 42
Proto3.Wire.Encode.unsafeFromLazyByteString "\t*\NUL\NUL\NUL\NUL\NUL\NUL\NUL"

sfixed32 :: FieldNumber -> Int32 -> MessageBuilder Source #

Encode a fixed-width signed 32-bit integer

For example:

1 `sfixed32` (-42)

sfixed64 :: FieldNumber -> Int64 -> MessageBuilder Source #

Encode a fixed-width signed 64-bit integer

For example:

>>> 1 `sfixed64` (-42)
Proto3.Wire.Encode.unsafeFromLazyByteString "\t\214\255\255\255\255\255\255\255"

float :: FieldNumber -> Float -> MessageBuilder Source #

Encode a floating point number

For example:

>>> 1 `float` 3.14
Proto3.Wire.Encode.unsafeFromLazyByteString "\r\195\245H@"

double :: FieldNumber -> Double -> MessageBuilder Source #

Encode a double-precision number

For example:

>>> 1 `double` 3.14
Proto3.Wire.Encode.unsafeFromLazyByteString "\t\US\133\235Q\184\RS\t@"

enum :: Enum e => FieldNumber -> e -> MessageBuilder Source #

Encode a value with an enumerable type.

It can be useful to derive an Enum instance for a type in order to emulate enums appearing in .proto files.

For example:

>>> data Shape = Circle | Square | Triangle deriving (Enum)
>>> 1 `enum` True <> 2 `enum` Circle
Proto3.Wire.Encode.unsafeFromLazyByteString "\b\SOH\DLE\NUL"

Strings

bytes :: FieldNumber -> Builder -> MessageBuilder Source #

Encode a sequence of octets as a field of type bytes.

>>> 1 `bytes` (Proto3.Wire.Builder.stringUtf8 "testing")
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\atesting"

string :: FieldNumber -> String -> MessageBuilder Source #

Encode a UTF-8 string.

For example:

>>> 1 `string` "testing"
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\atesting"

text :: FieldNumber -> Text -> MessageBuilder Source #

Encode lazy Text as UTF-8

For example:

>>> 1 `text` "testing"
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\atesting"

byteString :: FieldNumber -> ByteString -> MessageBuilder Source #

Encode a collection of bytes in the form of a strict ByteString.

For example:

>>> 1 `byteString` "testing"
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\atesting"

lazyByteString :: FieldNumber -> ByteString -> MessageBuilder Source #

Encode a lazy bytestring.

For example:

>>> 1 `lazyByteString` "testing"
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\atesting"

Embedded Messages

embedded :: FieldNumber -> MessageBuilder -> MessageBuilder Source #

Encode an embedded message.

The message is represented as a MessageBuilder, so it is possible to chain encoding functions.

For example:

>>> 1 `embedded` (1 `string` "this message" <> 2 `string` " is embedded")
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\FS\n\fthis message\DC2\f is embedded"

Packed repeated fields

packedVarints :: Foldable f => FieldNumber -> f Word64 -> MessageBuilder Source #

Encode varints in the space-efficient packed format.

>>> 1 `packedVarints` [1, 2, 3]
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\ETX\SOH\STX\ETX"

packedFixed32 :: Foldable f => FieldNumber -> f Word32 -> MessageBuilder Source #

Encode fixed-width Word32s in the space-efficient packed format.

>>> 1 `packedFixed32` [1, 2, 3]
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\f\SOH\NUL\NUL\NUL\STX\NUL\NUL\NUL\ETX\NUL\NUL\NUL"

packedFixed64 :: Foldable f => FieldNumber -> f Word64 -> MessageBuilder Source #

Encode fixed-width Word64s in the space-efficient packed format.

>>> 1 `packedFixed64` [1, 2, 3]
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\CAN\SOH\NUL\NUL\NUL\NUL\NUL\NUL\NUL\STX\NUL\NUL\NUL\NUL\NUL\NUL\NUL\ETX\NUL\NUL\NUL\NUL\NUL\NUL\NUL"

packedFloats :: Foldable f => FieldNumber -> f Float -> MessageBuilder Source #

Encode floats in the space-efficient packed format.

>>> 1 `packedFloats` [1, 2, 3]
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\f\NUL\NUL\128?\NUL\NUL\NUL@\NUL\NUL@@"

packedDoubles :: Foldable f => FieldNumber -> f Double -> MessageBuilder Source #

Encode doubles in the space-efficient packed format.

>>> 1 `packedDoubles` [1, 2, 3]
Proto3.Wire.Encode.unsafeFromLazyByteString "\n\CAN\NUL\NUL\NUL\NUL\NUL\NUL\240?\NUL\NUL\NUL\NUL\NUL\NUL\NUL@\NUL\NUL\NUL\NUL\NUL\NUL\b@"