Struct evcxr::EvalContext

pub struct EvalContext { /* private fields */ }

Implementations§

impl EvalContext

pub fn new() -> Result<(EvalContext, EvalContextOutputs), Error>

Examples found in repository ?

examples/example_eval.rs (line 16)

fn main() -> Result<(), Error> {
    // You must call ```evcxr::runtime_hook()``` at the top of main, otherwise
    // the library becomes a fork-bomb.
    evcxr::runtime_hook();

    let (mut context, outputs) = EvalContext::new()?;
    context.eval("let mut s = String::new();")?;
    context.eval(r#"s.push_str("Hello, ");"#)?;
    context.eval(r#"s.push_str("World!");"#)?;
    context.eval(r#"println!("{}", s);"#)?;

    // For this trivial example, we just receive a single line of output from
    // the code that was run. In a more complex case, we'd likely want to have
    // separate threads waiting for output on both stdout and stderr.
    if let Ok(line) = outputs.stdout.recv() {
        println!("{line}");
    }

    Ok(())
}

pub fn with_subprocess_command( subprocess_command: Command ) -> Result<(EvalContext, EvalContextOutputs), Error>

pub fn state(&self) -> ContextState

Returns a new context state, suitable for passing to eval after optionally calling things like add_dep.

pub fn eval(&mut self, code: &str) -> Result<EvalOutputs, Error>

Evaluates the supplied Rust code.

Examples found in repository ?

examples/example_eval.rs (line 17)

fn main() -> Result<(), Error> {
    // You must call ```evcxr::runtime_hook()``` at the top of main, otherwise
    // the library becomes a fork-bomb.
    evcxr::runtime_hook();

    let (mut context, outputs) = EvalContext::new()?;
    context.eval("let mut s = String::new();")?;
    context.eval(r#"s.push_str("Hello, ");"#)?;
    context.eval(r#"s.push_str("World!");"#)?;
    context.eval(r#"println!("{}", s);"#)?;

    // For this trivial example, we just receive a single line of output from
    // the code that was run. In a more complex case, we'd likely want to have
    // separate threads waiting for output on both stdout and stderr.
    if let Ok(line) = outputs.stdout.recv() {
        println!("{line}");
    }

    Ok(())
}

pub fn eval_with_state( &mut self, code: &str, state: ContextState ) -> Result<EvalOutputs, Error>

pub fn last_source(&self) -> Result<String, Error>

pub fn set_opt_level(&mut self, level: &str) -> Result<(), Error>

pub fn set_time_passes(&mut self, value: bool)

pub fn set_preserve_vars_on_panic(&mut self, value: bool)

pub fn set_error_format(&mut self, value: &str) -> Result<(), Error>

pub fn variables_and_types(&self) -> impl Iterator<Item = (&str, &str)>

pub fn defined_item_names(&self) -> impl Iterator<Item = &str>

pub fn clear(&mut self) -> Result<(), Error>

pub fn reset_config(&mut self)

pub fn process_handle(&self) -> Arc<Mutex<Child>>

Auto Trait Implementations§

impl !RefUnwindSafe for EvalContext

impl Send for EvalContext

impl !Sync for EvalContext

impl Unpin for EvalContext

impl !UnwindSafe for EvalContext

Blanket Implementations§

impl<T> Any for Twhere T: 'static + ?Sized,

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type Error = Infallible

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type Error = <U as TryFrom<T>>::Error

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