use serde_json::json;
use crate::event::EventAction;
use crate::{
scheduler::{tests::create_proc_signal, TaskState},
utils::{self, consts},
Act, Message, MessageState, StmtBuild, Vars, Workflow,
};
#[tokio::test]
async fn sch_act_setup_msg() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act1")
.with_setup(|stmts| stmts.add(Act::msg(|msg| msg.with_key("msg1")))),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) =
create_proc_signal::<Vec<Message>>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_type("msg") {
rx.update(|data| data.push(e.inner().clone()));
rx.close();
}
});
scher.launch(&proc);
let ret = tx.recv().await;
proc.print();
assert_eq!(ret.len(), 1);
assert_eq!(ret.first().unwrap().key, "msg1");
}
#[tokio::test]
async fn sch_act_setup_req() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_setup(|stmts| stmts.add(Act::irq(|req: crate::Irq| req.with_key("act1")))),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) =
create_proc_signal::<Vec<Message>>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_type("irq") && e.is_key("act1") {
rx.update(|data| data.push(e.inner().clone()));
rx.close();
}
});
scher.launch(&proc);
let ret = tx.recv().await;
proc.print();
assert_eq!(ret.len(), 1);
assert_eq!(ret.first().unwrap().key, "act1");
}
#[tokio::test]
async fn sch_act_setup_set() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act1")
.with_id("act1")
.with_setup(|stmts| stmts.add(Act::set(Vars::new().with("a", 10)))),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) = create_proc_signal::<()>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_type("irq") && e.is_key("act1") {
rx.close();
}
});
scher.launch(&proc);
tx.recv().await;
proc.print();
assert_eq!(
proc.task_by_nid("act1")
.first()
.unwrap()
.data()
.get::<i32>("a")
.unwrap(),
10
);
}
#[tokio::test]
async fn sch_act_setup_expose() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act1")
.with_id("act1")
.with_setup(|stmts| stmts.add(Act::expose(Vars::new().with("a", 10)))),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) = create_proc_signal::<()>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_type("irq") && e.is_key("act1") {
rx.close();
}
});
scher.launch(&proc);
tx.recv().await;
proc.print();
assert_eq!(
proc.task_by_nid("act1")
.first()
.unwrap()
.outputs()
.get::<i32>("a")
.unwrap(),
10
);
}
#[tokio::test]
async fn sch_act_setup_if_true() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_input("a", json!(10)).with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_id("act2")
.with_setup(|stmts| {
stmts.add(Act::r#if(|c| {
c.with_on(r#"$("a") > 0"#).with_then(|stmts| {
stmts.add(Act::irq(|act| act.with_key("act1")).with_id("act1"))
})
}))
}),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) = create_proc_signal::<()>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_source("act") {
rx.close();
}
});
scher.launch(&proc);
tx.recv().await;
proc.print();
assert_eq!(proc.task_by_nid("act1").len(), 1);
}
#[tokio::test]
async fn sch_act_setup_if_false() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_input("a", json!(10)).with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_id("act2")
.with_setup(|stmts| {
stmts.add(Act::r#if(|c| {
c.with_on(r#"$("a") < 0"#)
.with_then(|stmts| stmts.add(Act::irq(|act| act.with_key("act1"))))
}))
}),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) = create_proc_signal::<()>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_source("act") {
rx.close();
}
});
scher.launch(&proc);
tx.recv().await;
proc.print();
assert_eq!(proc.task_by_nid("act1").len(), 0);
}
#[tokio::test]
async fn sch_act_setup_each() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_input("a", json!(10)).with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_id("act2")
.with_setup(|stmts| {
stmts.add(Act::each(|each| {
each.with_in(r#"["u1", "u2"]"#).with_then(|stmts| {
stmts.add(Act::irq(|act| act.with_key("act1")).with_id("act1"))
})
}))
}),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) = create_proc_signal::<()>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e);
if e.is_source("act") {
rx.close();
}
});
scher.launch(&proc);
tx.recv().await;
proc.print();
let tasks = proc.task_by_nid("act1");
assert_eq!(tasks.first().unwrap().state(), TaskState::Interrupt);
assert!(tasks.iter().any(|t| {
let inputs = t.inputs();
inputs.get::<String>(consts::ACT_VALUE).unwrap() == "u1"
&& inputs.get::<i32>(consts::ACT_INDEX).unwrap() == 0
}));
assert!(tasks.iter().any(|t| {
let inputs = t.inputs();
inputs.get::<String>(consts::ACT_VALUE).unwrap() == "u2"
&& inputs.get::<i32>(consts::ACT_INDEX).unwrap() == 1
}));
}
#[tokio::test]
async fn sch_act_setup_chain() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_input("a", json!(10)).with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_id("act2")
.with_setup(|stmts| {
stmts.add(Act::chain(|act| {
act.with_in(r#"["u1", "u2"]"#)
.with_then(|stmts| stmts.add(Act::irq(|act| act.with_key("act1"))))
}))
}),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) =
create_proc_signal::<Vec<String>>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e.inner());
if e.is_key("act1") && e.is_state(MessageState::Created) {
rx.update(|data| data.push(e.inputs.get::<String>(consts::ACT_VALUE).unwrap()));
e.do_action(&e.pid, &e.tid, EventAction::Next, &Vars::new())
.unwrap();
}
if e.is_key("act2") && e.is_state(MessageState::Created) {
e.do_action(&e.pid, &e.tid, EventAction::Next, &Vars::new())
.unwrap();
}
});
scher.launch(&proc);
let ret = tx.recv().await;
proc.print();
assert_eq!(ret, ["u1", "u2"]);
}
#[tokio::test]
async fn sch_act_setup_pack() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_input("a", json!(10)).with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act2")
.with_id("act2")
.with_setup(|stmts| {
stmts.add(Act::block(|act| {
act.with_then(|stmts| stmts.add(Act::msg(|msg| msg.with_key("msg1"))))
.with_next(|act| act.with_act("msg").with_key("msg2"))
}))
}),
)
});
workflow.print();
let (proc, scher, emitter, tx, rx) =
create_proc_signal::<Vec<String>>(&mut workflow, &utils::longid());
emitter.on_message(move |e| {
println!("message: {:?}", e.inner());
if e.is_type("msg") && e.is_state(MessageState::Created) {
rx.update(|data| data.push(e.key.clone()));
e.do_action(&e.pid, &e.tid, EventAction::Next, &Vars::new())
.unwrap();
}
if e.is_key("act2") && e.is_state(MessageState::Created) {
e.do_action(&e.pid, &e.tid, EventAction::Next, &Vars::new())
.unwrap();
}
});
scher.launch(&proc);
let ret = tx.recv().await;
proc.print();
assert_eq!(ret, ["msg1", "msg2"]);
}
#[tokio::test]
async fn sch_act_setup_cmd() {
let mut workflow = Workflow::new().with_step(|step| {
step.with_id("step1").with_act(
Act::new()
.with_act("irq")
.with_key("act1")
.with_id("act1")
.with_setup(|stmts| {
stmts.add(Act::cmd(|act| act.with_key(EventAction::Next.as_ref())))
}),
)
});
workflow.print();
let (proc, scher, .., tx, _) = create_proc_signal::<()>(&mut workflow, &utils::longid());
scher.launch(&proc);
tx.recv().await;
proc.print();
assert_eq!(
proc.task_by_nid("act1").first().unwrap().state(),
TaskState::Completed
);
}