continued executable module
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18
.idea/runConfigurations/Docs.xml
Normal file
18
.idea/runConfigurations/Docs.xml
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@ -0,0 +1,18 @@
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<component name="ProjectRunConfigurationManager">
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<configuration default="false" name="Docs" type="CargoCommandRunConfiguration" factoryName="Cargo Command">
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<option name="command" value="doc" />
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<option name="workingDirectory" value="file://$PROJECT_DIR$" />
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<option name="channel" value="DEFAULT" />
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<option name="requiredFeatures" value="true" />
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<option name="allFeatures" value="false" />
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<option name="emulateTerminal" value="false" />
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<option name="withSudo" value="false" />
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<option name="backtrace" value="SHORT" />
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<envs />
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<option name="isRedirectInput" value="false" />
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<option name="redirectInputPath" value="" />
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<method v="2">
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<option name="CARGO.BUILD_TASK_PROVIDER" enabled="true" />
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</method>
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</configuration>
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</component>
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@ -5,6 +5,7 @@ use std::thread;
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use std::thread::JoinHandle;
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use std::time::Duration;
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#[derive(Debug, PartialEq)]
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pub enum OpResult {
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Ok,
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TerminationRequested,
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@ -24,24 +25,81 @@ pub trait Executable: Send {
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, Self::Error>;
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}
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pub fn executable_scheduler<
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/// This function allows executing one task which implements the [Executable][Executable] trait
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/// # Arguments
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///
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/// * `executable`: Executable task
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/// * `task_freq`: Optional frequency of task. Required for periodic and fixed cycle tasks
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/// * `op_code`: Operation code which is passed to the executable task [operation call][Executable::periodic_op]
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/// * `termination`: Optional termination handler which can cancel threads with a broadcast
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pub fn exec_sched_single<
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T: Executable<Error = E> + Send + 'static + ?Sized,
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E: Error + Send + 'static,
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>(
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mut executable: Box<T>,
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task_freq: Option<Duration>,
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op_code: i32,
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mut termination: Option<BusReader<()>>,
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) -> JoinHandle<Result<OpResult, E>> {
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let mut cycle_count = 0;
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thread::spawn(move || loop {
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if let Some(ref mut terminator) = termination {
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match terminator.try_recv() {
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Ok(_) | Err(TryRecvError::Disconnected) => {
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return Ok(OpResult::Ok);
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}
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Err(TryRecvError::Empty) => (),
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}
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}
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match executable.exec_type() {
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ExecutionType::OneShot => {
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executable.periodic_op(op_code)?;
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return Ok(OpResult::Ok);
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}
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ExecutionType::Infinite => {
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executable.periodic_op(op_code)?;
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}
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ExecutionType::Cycles(cycles) => {
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executable.periodic_op(op_code)?;
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cycle_count += 1;
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if cycle_count == cycles {
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return Ok(OpResult::Ok);
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}
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}
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}
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let freq = task_freq.unwrap_or_else(|| panic!("No task frequency specified"));
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thread::sleep(freq);
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})
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}
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/// This function allows executing multiple tasks as long as the tasks implement the
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/// [Executable][Executable] trait
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/// # Arguments
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///
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/// * `executable_vec`: Vector of executable objects
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/// * `task_freq`: Optional frequency of task. Required for periodic and fixed cycle tasks
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/// * `op_code`: Operation code which is passed to the executable task periodic_op call
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/// * `termination`: Optional termination handler which can cancel threads with a broadcast
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pub fn exec_sched_multi<
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T: Executable<Error = E> + Send + 'static + ?Sized,
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E: Error + Send + 'static,
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>(
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mut executable_vec: Vec<Box<T>>,
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task_freq: Option<Duration>,
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op_code: i32,
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mut termination: BusReader<()>,
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mut termination: Option<BusReader<()>>,
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) -> JoinHandle<Result<OpResult, E>> {
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let mut cycle_counts = vec![0; executable_vec.len()];
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let mut removal_flags = vec![false; executable_vec.len()];
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thread::spawn(move || loop {
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match termination.try_recv() {
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if let Some(ref mut terminator) = termination {
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match terminator.try_recv() {
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Ok(_) | Err(TryRecvError::Disconnected) => {
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removal_flags.iter_mut().for_each(|x| *x = true);
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}
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Err(TryRecvError::Empty) => (),
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}
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}
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for (idx, executable) in executable_vec.iter_mut().enumerate() {
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match executable.exec_type() {
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ExecutionType::OneShot => {
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@ -72,3 +130,226 @@ pub fn executable_scheduler<
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thread::sleep(freq);
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})
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}
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#[cfg(test)]
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mod tests {
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use super::{exec_sched_multi, exec_sched_single, Executable, ExecutionType, OpResult};
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use std::error::Error;
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use std::fmt;
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use std::sync::{Arc, Mutex};
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use std::time::Duration;
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struct TestInfo {
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exec_num: u32,
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op_code: i32,
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}
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struct OneShotTask {
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exec_num: Arc<Mutex<TestInfo>>,
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}
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struct FixedCyclesTask {
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cycles: u32,
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exec_num: Arc<Mutex<TestInfo>>,
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}
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struct PeriodicTask {
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exec_num: Arc<Mutex<TestInfo>>,
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}
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#[derive(Debug, PartialEq)]
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struct ExampleError {
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details: String,
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code: i32,
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}
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impl ExampleError {
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fn new(msg: &str, code: i32) -> ExampleError {
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ExampleError {
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details: msg.to_string(),
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code,
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}
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}
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}
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impl fmt::Display for ExampleError {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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write!(f, "{}", self.details)
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}
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}
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impl Error for ExampleError {
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fn description(&self) -> &str {
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&self.details
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}
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}
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const ONE_SHOT_TASK_NAME: &'static str = "One Shot Task";
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impl Executable for OneShotTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::OneShot
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}
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fn task_name(&self) -> &'static str {
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return ONE_SHOT_TASK_NAME;
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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let mut data = self.exec_num.lock().expect("Locking Mutex failed");
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data.exec_num += 1;
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data.op_code = op_code;
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std::mem::drop(data);
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if op_code >= 0 {
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Ok(OpResult::Ok)
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} else {
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Err(ExampleError::new("One Shot Task Failure", op_code))
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}
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}
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}
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const CYCLE_TASK_NAME: &'static str = "Fixed Cycles Task";
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impl Executable for FixedCyclesTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::Cycles(self.cycles)
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}
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fn task_name(&self) -> &'static str {
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return CYCLE_TASK_NAME
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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let mut data = self.exec_num.lock().expect("Locking Mutex failed");
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data.exec_num += 1;
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data.op_code = op_code;
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std::mem::drop(data);
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if op_code >= 0 {
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Ok(OpResult::Ok)
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} else {
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Err(ExampleError::new("Fixed Cycle Task Failure", op_code))
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}
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}
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}
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impl Executable for PeriodicTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::Infinite
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}
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fn task_name(&self) -> &'static str {
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"Periodic Task"
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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let mut data = self.exec_num.lock().expect("Locking Mutex failed");
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data.exec_num += 1;
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data.op_code = op_code;
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std::mem::drop(data);
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if op_code >= 0 {
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Ok(OpResult::Ok)
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} else {
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Err(ExampleError::new("Example Task Failure", op_code))
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}
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}
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}
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#[test]
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fn test_simple_one_shot() {
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let expected_op_code = 42;
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let shared = Arc::new(Mutex::new(TestInfo {
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exec_num: 0,
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op_code: 0,
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}));
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let exec_task = OneShotTask {
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exec_num: shared.clone(),
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};
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let task = Box::new(exec_task);
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let jhandle = exec_sched_single(
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task,
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Some(Duration::from_millis(100)),
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expected_op_code,
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None,
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);
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let thread_res = jhandle.join().expect("One Shot Task failed");
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assert!(thread_res.is_ok());
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assert_eq!(thread_res.unwrap(), OpResult::Ok);
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let data = shared.lock().expect("Locking Mutex failed");
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assert_eq!(data.exec_num, 1);
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assert_eq!(data.op_code, expected_op_code);
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}
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#[test]
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fn test_simple_multi_one_shot() {
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let expected_op_code = 43;
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let shared = Arc::new(Mutex::new(TestInfo {
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exec_num: 0,
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op_code: 0,
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}));
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let exec_task_0 = OneShotTask {
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exec_num: shared.clone(),
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};
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let exec_task_1 = OneShotTask {
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exec_num: shared.clone(),
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};
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let task_vec = vec![Box::new(exec_task_0), Box::new(exec_task_1)];
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for task in task_vec.iter() {
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assert_eq!(task.task_name(), ONE_SHOT_TASK_NAME);
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}
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let jhandle = exec_sched_multi(
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task_vec,
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Some(Duration::from_millis(100)),
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expected_op_code,
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None,
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);
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let thread_res = jhandle.join().expect("One Shot Task failed");
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assert!(thread_res.is_ok());
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assert_eq!(thread_res.unwrap(), OpResult::Ok);
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let data = shared.lock().expect("Locking Mutex failed");
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assert_eq!(data.exec_num, 2);
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assert_eq!(data.op_code, expected_op_code);
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}
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#[test]
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fn test_cycles() {
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let expected_op_code = 44;
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let shared = Arc::new(Mutex::new(TestInfo {
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exec_num: 0,
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op_code: 0,
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}));
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let cycled_task = Box::new(FixedCyclesTask {
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exec_num: shared.clone(),
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cycles: 1,
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});
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assert_eq!(cycled_task.task_name(), CYCLE_TASK_NAME);
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let jh = exec_sched_single(cycled_task, Some(Duration::from_millis(100)), expected_op_code, None);
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let thread_res = jh.join().expect("Cycles Task failed");
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assert!(thread_res.is_ok());
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let data = shared.lock().expect("Locking Mutex failed");
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assert_eq!(thread_res.unwrap(), OpResult::Ok);
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assert_eq!(data.exec_num, 1);
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assert_eq!(data.op_code, expected_op_code);
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}
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#[test]
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#[ignore]
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fn test_periodic() {
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let expected_op_code = 45;
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let shared = Arc::new(Mutex::new(TestInfo {
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exec_num: 0,
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op_code: 0,
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}));
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let periodic_task = Box::new(PeriodicTask {
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exec_num: shared.clone()
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});
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let jh = exec_sched_single(periodic_task, Some(Duration::from_millis(50)), expected_op_code, None);
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let thread_res = jh.join().expect("Periodic Task failed");
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assert!(thread_res.is_ok());
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let data = shared.lock().expect("Locking Mutex failed");
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assert_eq!(thread_res.unwrap(), OpResult::Ok);
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assert_eq!(data.op_code, expected_op_code);
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}
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}
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@ -124,7 +124,7 @@ mod tests {
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#[test]
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fn test_obj_manager_simple() {
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let mut obj_manager = ObjectManager::new();
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let mut obj_manager = ObjectManager::default();
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let expl_obj_id = ObjectId {
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id: 0,
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name: "Example 0",
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@ -159,5 +159,17 @@ mod tests {
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let expl_obj_back_casted = obj_back_casted.unwrap();
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assert_eq!(expl_obj_back_casted.string, String::from("Hello Test"));
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assert!(expl_obj_back_casted.was_initialized);
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let existing_obj_id = ObjectId {
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id: 12,
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name: "Example 1",
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};
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let invalid_obj = OtherExampleObject {
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id: existing_obj_id,
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string: String::from("Hello Test"),
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was_initialized: false,
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};
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assert_eq!(obj_manager.insert(Box::new(invalid_obj)), false);
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}
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}
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161
src/main.rs
161
src/main.rs
@ -1,162 +1,3 @@
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use bus::{Bus};
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use launchpad::core::executable::{executable_scheduler, Executable, ExecutionType, OpResult};
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use std::error::Error;
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use std::fmt;
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use std::thread;
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use std::time::Duration;
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struct OneShotTask {}
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struct FixedCyclesTask {}
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struct PeriodicTask {}
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#[derive(Debug)]
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struct ExampleError {
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details: String,
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}
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impl ExampleError {
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fn new(msg: &str) -> ExampleError {
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ExampleError {
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details: msg.to_string(),
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}
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}
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}
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impl fmt::Display for ExampleError {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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write!(f, "{}", self.details)
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}
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}
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impl Error for ExampleError {
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fn description(&self) -> &str {
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&self.details
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}
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}
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impl Executable for OneShotTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::OneShot
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}
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fn task_name(&self) -> &'static str {
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"One Shot Task"
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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if op_code >= 0 {
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println!("One-shot operation with operation code {op_code} OK!");
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Ok(OpResult::Ok)
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} else {
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println!("One-shot operation failure by passing op code {op_code}!");
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Err(ExampleError::new("Example Task Failure"))
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}
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}
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}
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impl Executable for FixedCyclesTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::Cycles(3)
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}
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fn task_name(&self) -> &'static str {
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"Fixed Cycles Task"
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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if op_code >= 0 {
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println!("Fixed-cycle operation with operation code {op_code} OK!");
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Ok(OpResult::Ok)
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} else {
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println!("Fixed-cycle operation failure by passing op code {op_code}!");
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Err(ExampleError::new("Example Task Failure"))
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}
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}
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}
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impl Executable for PeriodicTask {
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type Error = ExampleError;
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fn exec_type(&self) -> ExecutionType {
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ExecutionType::Infinite
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}
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fn task_name(&self) -> &'static str {
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"Periodic Task"
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}
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fn periodic_op(&mut self, op_code: i32) -> Result<OpResult, ExampleError> {
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if op_code >= 0 {
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println!("Periodic operation with operation code {op_code} OK!");
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Ok(OpResult::Ok)
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} else {
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println!("Periodic operation failure by passing op code {op_code}!");
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Err(ExampleError::new("Example Task Failure"))
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}
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}
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}
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fn test0(term_bus: &mut Bus<()>) {
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let exec_task = OneShotTask {};
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let task_vec = vec![Box::new(exec_task)];
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let jhandle = executable_scheduler(
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task_vec,
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Some(Duration::from_millis(100)),
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0,
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term_bus.add_rx(),
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);
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let exec_task2 = FixedCyclesTask {};
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let task_vec2: Vec<Box<dyn Executable<Error = ExampleError> + Send>> =
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vec![Box::new(exec_task2)];
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let jhandle2 = executable_scheduler(
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task_vec2,
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Some(Duration::from_millis(100)),
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1,
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term_bus.add_rx(),
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);
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jhandle
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.join()
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.expect("Joining thread failed")
|
||||
.expect("Task failed");
|
||||
jhandle2
|
||||
.join()
|
||||
.expect("Joining thread 2 failed")
|
||||
.expect("Task 2 failed");
|
||||
}
|
||||
|
||||
fn test1(term_bus: &mut Bus<()>) {
|
||||
let one_shot_in_vec = OneShotTask {};
|
||||
let cycles_in_vec = FixedCyclesTask {};
|
||||
let periodic_in_vec = PeriodicTask {};
|
||||
let test_vec: Vec<Box<dyn Executable<Error = ExampleError>>> = vec![
|
||||
Box::new(one_shot_in_vec),
|
||||
Box::new(cycles_in_vec),
|
||||
Box::new(periodic_in_vec),
|
||||
];
|
||||
let jhandle3 = executable_scheduler(
|
||||
test_vec,
|
||||
Some(Duration::from_millis(100)),
|
||||
3,
|
||||
term_bus.add_rx(),
|
||||
);
|
||||
thread::sleep(Duration::from_millis(5000));
|
||||
println!("Broadcasting cancel");
|
||||
term_bus.broadcast(());
|
||||
jhandle3
|
||||
.join()
|
||||
.expect("Joining thread 3 failed")
|
||||
.expect("Task 3 failed");
|
||||
}
|
||||
|
||||
fn main() {
|
||||
let mut tx = Bus::new(5);
|
||||
test0(&mut tx);
|
||||
test1(&mut tx);
|
||||
println!("hello");
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user