3 releases (breaking)
0.3.0 | May 17, 2020 |
---|---|
0.2.0 | May 16, 2020 |
0.1.0 | May 10, 2020 |
Used in eventmill
20KB
253 lines
eventmill-derive
Derive macros for convenient use of the eventmill
crate
You can bring in the macros in two ways. The recommended way by using the derive
feature of the
main crate:
[dependencies]
eventmill = { version = "0.3", features = ["derive"] }
or the alternative way:
[dependencies]
eventmill = "0.3"
eventmill_derive = "0.3"
The examples below assume you bring in the macros the recommended way using the derive
feature of
the eventmill
crate.
#[derive(EventType)]
The #[derive(EventType)]
macro implements the EventType
trait for your events. An Event can be
a struct
or enum
. We can configure the generated implementation by using the optional attributes
event_type
, event_type_version
and event_source
.
Here are some examples:
Implementing an event using a struct
and specifying all available attributes.
use eventmill::EventType;
#[derive(EventType, Debug)]
#[event_type_version("V2")]
#[event_source("https://github.com/innoave/eventmill/examples/turtle")]
#[event_type("turtle-turned")]
pub struct TurtleTurned {
angle: f32,
}
fn main() {
let turtle = TurtleTurned { angle: 0.42 };
assert_eq!(turtle.event_type_version(), "V2");
assert_eq!(
turtle.event_source(),
"https://github.com/innoave/eventmill/examples/turtle"
);
assert_eq!(turtle.event_type(), "turtle-turned");
}
Implementing an event using an enum
and specifying all available attributes.
use eventmill::EventType;
#[derive(EventType, Debug)]
#[event_type_version("V2")]
#[event_source("https://github.com/innoave/eventmill/examples/turtle")]
pub enum Turtle {
#[event_type("turtle-turned")]
Turned(f32),
#[event_type("turtle-moved")]
Moved { x: i32, y: i32 },
#[event_type("turtle-stopped")]
Stopped,
}
fn main() {
let turtle = Turtle::Stopped;
assert_eq!(turtle.event_type_version(), "V2");
assert_eq!(
turtle.event_source(),
"https://github.com/innoave/eventmill/examples/turtle"
);
assert_eq!(turtle.event_type(), "turtle-stopped");
let turtle = Turtle::Turned(0.42);
assert_eq!(turtle.event_type(), "turtle-turned");
let turtle = Turtle::Moved { x: 4, y: 2 };
assert_eq!(turtle.event_type(), "turtle-moved");
}
If we omit any or all of the attributes the macro uses default values. Note the default names
returned by the event_type()
function.
use eventmill::EventType;
#[derive(EventType, Debug)]
pub enum Turtle {
Turned(f32),
Moved { x: i32, y: i32 },
Stopped,
}
fn main() {
let turtle = Turtle::Turned(0.42);
assert_eq!(turtle.event_type(), "Turtle::Turned");
let turtle = Turtle::Moved { x: 4, y: 2 };
assert_eq!(turtle.event_type(), "Turtle::Moved");
let turtle = Turtle::Stopped;
assert_eq!(turtle.event_type(), "Turtle::Stopped");
}
We can use any expression that evaluates to &str
as the values of attributes. E.g. use a const
for defining the event_source
attribute.
use eventmill::EventType;
const EVENT_NAMESPACE: &str = "https://github.com/innoave/eventmill/examples/turtle";
#[derive(EventType, Debug)]
#[event_source(EVENT_NAMESPACE)]
pub struct TurtleTurned {
angle: f32,
}
fn main() {
let turtle = TurtleTurned { angle: 0.42 };
assert_eq!(turtle.event_type_version(), "V0");
assert_eq!(turtle.event_source(), EVENT_NAMESPACE);
assert_eq!(turtle.event_type(), "TurtleTurned");
}
#[derive(AggregateType)]
The #[derive(AggregateType)]
macro implements the AggregateType
trait for your aggregate types.
Currently, this macro can be used only on struct
types. We can configure the macro with the two
optional attributes #[id_field]
and #[initialize_with_defaults]
.
When the #[id_field]
attribute is specified the macro will additionally implement the
WithAggregateId
trait. This attribute has one parameter which is the identifier of the id field
in the struct.
The #[initialize_with_defaults]
attribute tells the macro to implement the InitializeAggregate
trait using the default values for each field in the struct. This assumes that types used in fields
of the struct implement the Default
trait. The #[initialize_with_defaults]
attribute requires
that the #[id_field]
attribute is specified for the struct as well.
Here are some examples:
Derive implementations for the traits AggregateType
, WithAggregateId
and InitializeAggregate
using the AggregateType
macro with all optional attributes:
use eventmill::{AggregateType, InitializeAggregate, WithAggregateId};
#[derive(AggregateType, Debug, PartialEq)]
#[id_field(id)]
#[initialize_with_defaults]
pub struct Turtle {
id: String,
x: f32,
y: f32,
direction: f32,
speed: f32,
pen: bool,
}
#[test]
fn main() {
let expected_turtle = Turtle {
id: "4711".to_string(),
x: Default::default(),
y: Default::default(),
direction: Default::default(),
speed: Default::default(),
pen: Default::default(),
};
let new_turtle = Turtle::initialize("4711".to_string());
assert_eq!(new_turtle, expected_turtle);
assert_eq!(new_turtle.aggregate_id(), "4711");
assert_eq!(Turtle::aggregate_type(), "Turtle");
}
Only derive the implementation for AggregateType
. No additional attributes are to be specified:
use eventmill::AggregateType;
#[derive(AggregateType, Debug)]
pub struct Turtle {
id: String,
x: f32,
y: f32,
direction: f32,
speed: f32,
pen: bool,
}
#[test]
fn main() {
assert_eq!(Turtle::aggregate_type(), "Turtle");
}
Derive the implementation of the traits AggregateType
and WithAggregateId
:
use eventmill::{AggregateType, WithAggregateId};
#[derive(AggregateType, Debug)]
#[id_field(id)]
pub struct Turtle {
id: String,
x: f32,
y: f32,
direction: f32,
speed: f32,
pen: bool,
}
#[test]
fn main() {
let turtle = Turtle {
id: "0815".to_string(),
x: -0.5,
y: 0.3,
direction: 0.42,
speed: 1.0,
pen: true,
};
assert_eq!(turtle.aggregate_id(), "0815");
assert_eq!(Turtle::aggregate_type(), "Turtle");
}
Dependencies
~1.5MB
~37K SLoC