buildSrc/src/main | ||
gradle/wrapper | ||
src | ||
.gitignore | ||
.travis.yml | ||
build.gradle | ||
CHANGELOG.md | ||
gradle.properties | ||
gradlew | ||
gradlew.bat | ||
LICENSE | ||
README.md | ||
settings.gradle |
Simple MessagePack
This is a simple Kotlin/Java library for handling MessagePack data. It doesn't do any object mapping, but maps to
special objects representing MessagePack types. To build, use command ./gradlew build
.
For most cases you might be better off using org.msgpack:msgpack
, but I found that I needed something that generically
represents the internal structure of the data.
Simple MessagePack uses Semantic Versioning, meaning as long as the major version doesn't change, nothing should break if you update. Be aware though that this doesn't necessarily applies for SNAPSHOT builds and the development branch.
Master
Develop
Limitations
- There is no fallback to BigInteger for large integer type numbers, so there might be an integer overflow when reading too large numbers
MPFloat
uses the data type you're using to decide on precision (float 32 or 64) - not the actual value. E.g. 0.5 could be saved perfectly as a float 42, but if you provide a double value, it will be stored as float 64, wasting 4 bytes.- If you want to use the 'ext format family', you'll need to implement and register your own
MPType
andMPType.Unpacker
. - Be aware that custom
MPType.Unpacker
take precedence over the default unpackers, i.e. if you accidentally define your unpacker to handle strings, for example, you won't be able to unpack any regular strings anymore.
Setup
Add msgpack as Gradle dependency:
compile "ch.dissem.msgpack:msgpack:1.0.0"
Usage
Serialize Data
First, you'll need to create some msgpack objects to serialize:
MPMap<MPString, MPType<?>> object = new MPMap<>();
object.put(new MPString("compact"), new MPBoolean(true));
object.put(new MPString("schema"), new MPInteger(0));
or the shorthand version for simple types:
import static ch.dissem.msgpack.types.Utils.mp;
MPMap<MPString, MPType<?>> object = new MPMap<>();
object.put(mp("compact"), mp(true));
object.put(mp("schema"), mp(0));
then just use pack(OutputStream)
:
OutputStream out = ...;
object.pack(out);
Deserialize Data
For deserializing data there is the reader object:
Reader reader = Reader.getInstance()
just use reader.read(InputStream)
. Unfortunately you'll need to make sure you got what you expected, the following
example might result in ClassCastException
at weird places:
InputStream in = ...;
MPType read = reader.read(in);
MPMap<MPString, MPString> map = (MPMap<MPString, MPString>) read;
String value = map.get(mp("key")).getValue();