mirror of
https://github.com/denoland/deno
synced 2024-10-03 23:03:45 +00:00
308 lines
8.9 KiB
Rust
308 lines
8.9 KiB
Rust
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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use crate::compiler::compile_async;
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use crate::compiler::ModuleMetaData;
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use crate::errors::DenoError;
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use crate::errors::RustOrJsError;
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use crate::isolate_state::IsolateState;
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use crate::isolate_state::IsolateStateContainer;
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use crate::js_errors;
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use crate::js_errors::JSErrorColor;
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use crate::msg;
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use crate::tokio_util;
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use deno;
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use deno::deno_mod;
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use deno::Behavior;
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use deno::JSError;
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use futures::future::Either;
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use futures::Async;
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use futures::Future;
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use std::sync::atomic::Ordering;
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use std::sync::Arc;
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pub trait DenoBehavior: Behavior + IsolateStateContainer + Send {}
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impl<T> DenoBehavior for T where T: Behavior + IsolateStateContainer + Send {}
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type CoreIsolate<B> = deno::Isolate<B>;
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/// Wraps deno::Isolate to provide source maps, ops for the CLI, and
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/// high-level module loading
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pub struct Isolate<B: Behavior> {
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inner: CoreIsolate<B>,
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state: Arc<IsolateState>,
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}
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impl<B: DenoBehavior> Isolate<B> {
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pub fn new(behavior: B) -> Isolate<B> {
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let state = behavior.state().clone();
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Self {
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inner: CoreIsolate::new(behavior),
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state,
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}
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}
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/// Same as execute2() but the filename defaults to "<anonymous>".
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pub fn execute(&mut self, js_source: &str) -> Result<(), JSError> {
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self.execute2("<anonymous>", js_source)
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}
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/// Executes the provided JavaScript source code. The js_filename argument is
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/// provided only for debugging purposes.
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pub fn execute2(
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&mut self,
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js_filename: &str,
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js_source: &str,
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) -> Result<(), JSError> {
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self.inner.execute(js_filename, js_source)
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}
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// TODO(ry) make this return a future.
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fn mod_load_deps(&self, id: deno_mod) -> Result<(), RustOrJsError> {
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// basically iterate over the imports, start loading them.
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let referrer_name = {
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let g = self.state.modules.lock().unwrap();
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g.get_name(id).unwrap().clone()
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};
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for specifier in self.inner.mod_get_imports(id) {
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let (name, _local_filename) = self
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.state
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.dir
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.resolve_module(&specifier, &referrer_name)
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.map_err(DenoError::from)
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.map_err(RustOrJsError::from)?;
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debug!("mod_load_deps {}", name);
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if !self.state.modules.lock().unwrap().is_registered(&name) {
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let out = fetch_module_meta_data_and_maybe_compile(
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&self.state,
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&specifier,
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&referrer_name,
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)?;
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let child_id = self.mod_new_and_register(
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false,
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&out.module_name.clone(),
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&out.js_source(),
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)?;
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// The resolved module is an alias to another module (due to redirects).
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// Save such alias to the module map.
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if out.module_redirect_source_name.is_some() {
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self.mod_alias(
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&out.module_redirect_source_name.clone().unwrap(),
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&out.module_name,
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);
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}
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self.mod_load_deps(child_id)?;
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}
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}
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Ok(())
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}
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/// Executes the provided JavaScript module.
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pub fn execute_mod(
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&mut self,
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js_filename: &str,
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is_prefetch: bool,
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) -> Result<(), RustOrJsError> {
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// TODO move isolate_state::execute_mod impl here.
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self
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.execute_mod_inner(js_filename, is_prefetch)
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.map_err(|err| match err {
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RustOrJsError::Js(err) => RustOrJsError::Js(self.apply_source_map(err)),
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x => x,
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})
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}
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/// High-level way to execute modules.
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/// This will issue HTTP requests and file system calls.
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/// Blocks. TODO(ry) Don't block.
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fn execute_mod_inner(
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&mut self,
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url: &str,
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is_prefetch: bool,
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) -> Result<(), RustOrJsError> {
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let out = fetch_module_meta_data_and_maybe_compile(&self.state, url, ".")
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.map_err(RustOrJsError::from)?;
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// Be careful.
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// url might not match the actual out.module_name
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// due to the mechanism of redirection.
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let id = self
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.mod_new_and_register(true, &out.module_name.clone(), &out.js_source())
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.map_err(RustOrJsError::from)?;
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// The resolved module is an alias to another module (due to redirects).
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// Save such alias to the module map.
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if out.module_redirect_source_name.is_some() {
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self.mod_alias(
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&out.module_redirect_source_name.clone().unwrap(),
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&out.module_name,
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);
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}
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self.mod_load_deps(id)?;
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let state = self.state.clone();
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let mut resolve = move |specifier: &str, referrer: deno_mod| -> deno_mod {
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state.metrics.resolve_count.fetch_add(1, Ordering::Relaxed);
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let mut modules = state.modules.lock().unwrap();
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modules.resolve_cb(&state.dir, specifier, referrer)
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};
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self
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.inner
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.mod_instantiate(id, &mut resolve)
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.map_err(RustOrJsError::from)?;
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if !is_prefetch {
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self.inner.mod_evaluate(id).map_err(RustOrJsError::from)?;
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}
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Ok(())
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}
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/// Wraps Isolate::mod_new but registers with modules.
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fn mod_new_and_register(
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&self,
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main: bool,
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name: &str,
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source: &str,
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) -> Result<deno_mod, JSError> {
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let id = self.inner.mod_new(main, name, source)?;
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self.state.modules.lock().unwrap().register(id, &name);
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Ok(id)
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}
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/// Create an alias for another module.
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/// The alias could later be used to grab the module
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/// which `target` points to.
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fn mod_alias(&self, name: &str, target: &str) {
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self.state.modules.lock().unwrap().alias(name, target);
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}
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pub fn print_file_info(&self, module: &str) {
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let m = self.state.modules.lock().unwrap();
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m.print_file_info(&self.state.dir, module.to_string());
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}
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/// Applies source map to the error.
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fn apply_source_map(&self, err: JSError) -> JSError {
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js_errors::apply_source_map(&err, &self.state.dir)
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}
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}
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impl<B: DenoBehavior> Future for Isolate<B> {
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type Item = ();
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type Error = JSError;
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fn poll(&mut self) -> Result<Async<()>, Self::Error> {
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self.inner.poll().map_err(|err| self.apply_source_map(err))
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}
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}
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fn fetch_module_meta_data_and_maybe_compile_async(
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state: &Arc<IsolateState>,
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specifier: &str,
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referrer: &str,
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) -> impl Future<Item = ModuleMetaData, Error = DenoError> {
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let use_cache = !state.flags.reload;
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let state_ = state.clone();
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let specifier = specifier.to_string();
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let referrer = referrer.to_string();
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state
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.dir
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.fetch_module_meta_data_async(&specifier, &referrer, use_cache)
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.and_then(move |out| {
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if out.media_type == msg::MediaType::TypeScript
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&& !out.has_output_code_and_source_map()
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{
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debug!(">>>>> compile_sync START");
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Either::A(
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compile_async(state_.clone(), &specifier, &referrer, &out)
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.map_err(|e| {
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debug!("compiler error exiting!");
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eprintln!("{}", JSErrorColor(&e).to_string());
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std::process::exit(1);
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}).and_then(move |out| {
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debug!(">>>>> compile_sync END");
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state_.dir.code_cache(&out)?;
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Ok(out)
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}),
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)
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} else {
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Either::B(futures::future::ok(out))
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}
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})
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}
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fn fetch_module_meta_data_and_maybe_compile(
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state: &Arc<IsolateState>,
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specifier: &str,
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referrer: &str,
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) -> Result<ModuleMetaData, DenoError> {
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tokio_util::block_on(fetch_module_meta_data_and_maybe_compile_async(
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state, specifier, referrer,
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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::*;
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use crate::cli_behavior::CliBehavior;
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use crate::flags;
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use futures::future::lazy;
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use std::sync::atomic::Ordering;
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#[test]
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fn execute_mod() {
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let filename = std::env::current_dir()
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.unwrap()
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.join("tests/esm_imports_a.js");
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let filename = filename.to_str().unwrap().to_string();
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let argv = vec![String::from("./deno"), filename.clone()];
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let (flags, rest_argv, _) = flags::set_flags(argv).unwrap();
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let state = Arc::new(IsolateState::new(flags, rest_argv, None, false));
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let state_ = state.clone();
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tokio_util::run(lazy(move || {
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let cli = CliBehavior::new(None, state.clone());
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let mut isolate = Isolate::new(cli);
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if let Err(err) = isolate.execute_mod(&filename, false) {
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eprintln!("execute_mod err {:?}", err);
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}
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tokio_util::panic_on_error(isolate)
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}));
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let metrics = &state_.metrics;
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assert_eq!(metrics.resolve_count.load(Ordering::SeqCst), 1);
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}
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#[test]
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fn execute_mod_circular() {
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let filename = std::env::current_dir().unwrap().join("tests/circular1.js");
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let filename = filename.to_str().unwrap().to_string();
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let argv = vec![String::from("./deno"), filename.clone()];
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let (flags, rest_argv, _) = flags::set_flags(argv).unwrap();
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let state = Arc::new(IsolateState::new(flags, rest_argv, None, false));
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let state_ = state.clone();
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tokio_util::run(lazy(move || {
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let cli = CliBehavior::new(None, state.clone());
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let mut isolate = Isolate::new(cli);
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if let Err(err) = isolate.execute_mod(&filename, false) {
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eprintln!("execute_mod err {:?}", err);
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}
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tokio_util::panic_on_error(isolate)
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}));
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let metrics = &state_.metrics;
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assert_eq!(metrics.resolve_count.load(Ordering::SeqCst), 2);
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}
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}
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