2022-12-02 15:45:17 +03:00
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#![cfg_attr(not(feature = "__rkyv"), allow(warnings))]
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use std::{
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env, fs,
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path::{Path, PathBuf},
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process::{Command, Stdio},
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sync::Arc,
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};
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use anyhow::{anyhow, Error};
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use serde_json::json;
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#[cfg(feature = "__rkyv")]
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use swc_common::plugin::serialized::PluginSerializedBytes;
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use swc_common::{
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collections::AHashMap, plugin::metadata::TransformPluginMetadataContext, sync::Lazy, FileName,
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Mark,
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};
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2023-06-21 06:16:33 +03:00
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use testing::CARGO_TARGET_DIR;
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2022-12-02 15:45:17 +03:00
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use tracing::info;
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/// Returns the path to the built plugin
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fn build_plugin(dir: &Path) -> Result<PathBuf, Error> {
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{
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let mut cmd = Command::new("cargo");
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2023-06-21 06:16:33 +03:00
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cmd.env("CARGO_TARGET_DIR", &*CARGO_TARGET_DIR);
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2023-06-19 08:49:45 +03:00
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2022-12-02 15:45:17 +03:00
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cmd.current_dir(dir);
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cmd.args(["build", "--target=wasm32-wasi", "--release"])
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.stderr(Stdio::inherit());
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cmd.output()?;
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if !cmd
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.status()
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.expect("Exit code should be available")
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.success()
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{
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return Err(anyhow!("Failed to build plugin"));
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}
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}
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2023-06-21 06:16:33 +03:00
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for entry in fs::read_dir(&CARGO_TARGET_DIR.join("wasm32-wasi").join("release"))? {
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2022-12-02 15:45:17 +03:00
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let entry = entry?;
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let s = entry.file_name().to_string_lossy().into_owned();
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if s.eq_ignore_ascii_case("swc_noop_plugin.wasm") {
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return Ok(entry.path());
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}
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}
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Err(anyhow!("Could not find built plugin"))
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}
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#[cfg(feature = "__rkyv")]
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refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
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static PLUGIN_BYTES: Lazy<swc_plugin_runner::plugin_module_bytes::CompiledPluginModuleBytes> =
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Lazy::new(|| {
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let path = build_plugin(
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&PathBuf::from(env::var("CARGO_MANIFEST_DIR").unwrap())
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.join("tests")
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.join("css-plugins")
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.join("swc_noop_plugin"),
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)
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.unwrap();
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let raw_module_bytes = std::fs::read(&path).expect("Should able to read plugin bytes");
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let store = wasmer::Store::default();
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let module = wasmer::Module::new(&store, raw_module_bytes).unwrap();
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swc_plugin_runner::plugin_module_bytes::CompiledPluginModuleBytes::new(
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path.as_os_str()
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.to_str()
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.expect("Should able to get path")
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.to_string(),
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module,
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store,
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)
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});
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2022-12-02 15:45:17 +03:00
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#[cfg(feature = "__rkyv")]
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#[testing::fixture("../swc_css_parser/tests/fixture/**/input.css")]
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fn invoke(input: PathBuf) -> Result<(), Error> {
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use swc_css_ast::Stylesheet;
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// run single plugin
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testing::run_test(false, |cm, _handler| {
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let fm = cm.new_source_file(FileName::Anon, "console.log(foo)".into());
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let parsed: Stylesheet =
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swc_css_parser::parse_file(&fm, Default::default(), &mut vec![]).unwrap();
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2023-05-15 06:17:31 +03:00
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let program = PluginSerializedBytes::try_serialize(
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&swc_common::plugin::serialized::VersionedSerializable::new(parsed.clone()),
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)
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.expect("Should serializable");
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2022-12-02 15:45:17 +03:00
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let experimental_metadata: AHashMap<String, String> = [
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(
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"TestExperimental".to_string(),
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"ExperimentalValue".to_string(),
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),
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("OtherTest".to_string(), "OtherVal".to_string()),
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]
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.into_iter()
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.collect();
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let mut plugin_transform_executor = swc_plugin_runner::create_plugin_transform_executor(
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&cm,
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refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
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&Mark::new(),
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2022-12-02 15:45:17 +03:00
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&Arc::new(TransformPluginMetadataContext::new(
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None,
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"development".to_string(),
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Some(experimental_metadata),
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)),
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
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Box::new(PLUGIN_BYTES.clone()),
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2022-12-02 15:45:17 +03:00
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Some(json!({ "pluginConfig": "testValue" })),
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2023-06-08 05:19:07 +03:00
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None,
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
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);
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2022-12-02 15:45:17 +03:00
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info!("Created transform executor");
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let program_bytes = plugin_transform_executor
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
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.transform(&program, Some(false))
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2022-12-02 15:45:17 +03:00
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.expect("Plugin should apply transform");
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let program: Stylesheet = program_bytes
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.deserialize()
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2023-05-15 06:17:31 +03:00
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.expect("Should able to deserialize")
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.into_inner();
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2022-12-02 15:45:17 +03:00
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assert_eq!(parsed, program);
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Ok(())
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})
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.expect("Should able to run single plugin transform");
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// Run multiple plugins.
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testing::run_test(false, |cm, _handler| {
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let fm = cm.new_source_file(FileName::Anon, "console.log(foo)".into());
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let parsed: Stylesheet =
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swc_css_parser::parse_file(&fm, Default::default(), &mut vec![]).unwrap();
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2023-05-15 06:17:31 +03:00
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let mut serialized_program = PluginSerializedBytes::try_serialize(
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&swc_common::plugin::serialized::VersionedSerializable::new(parsed.clone()),
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)
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.expect("Should serializable");
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2022-12-02 15:45:17 +03:00
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let experimental_metadata: AHashMap<String, String> = [
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(
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"TestExperimental".to_string(),
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"ExperimentalValue".to_string(),
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),
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("OtherTest".to_string(), "OtherVal".to_string()),
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]
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.into_iter()
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.collect();
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let mut plugin_transform_executor = swc_plugin_runner::create_plugin_transform_executor(
|
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&cm,
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
&Mark::new(),
|
2022-12-02 15:45:17 +03:00
|
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&Arc::new(TransformPluginMetadataContext::new(
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None,
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"development".to_string(),
|
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Some(experimental_metadata.clone()),
|
|
|
|
)),
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
Box::new(PLUGIN_BYTES.clone()),
|
2022-12-02 15:45:17 +03:00
|
|
|
Some(json!({ "pluginConfig": "testValue" })),
|
2023-06-08 05:19:07 +03:00
|
|
|
None,
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
);
|
2022-12-02 15:45:17 +03:00
|
|
|
|
|
|
|
serialized_program = plugin_transform_executor
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
.transform(&serialized_program, Some(false))
|
2022-12-02 15:45:17 +03:00
|
|
|
.expect("Plugin should apply transform");
|
|
|
|
|
|
|
|
// TODO: we'll need to apply 2 different plugins
|
|
|
|
let mut plugin_transform_executor = swc_plugin_runner::create_plugin_transform_executor(
|
|
|
|
&cm,
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
&Mark::new(),
|
2022-12-02 15:45:17 +03:00
|
|
|
&Arc::new(TransformPluginMetadataContext::new(
|
|
|
|
None,
|
|
|
|
"development".to_string(),
|
|
|
|
Some(experimental_metadata),
|
|
|
|
)),
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
Box::new(PLUGIN_BYTES.clone()),
|
2022-12-02 15:45:17 +03:00
|
|
|
Some(json!({ "pluginConfig": "testValue" })),
|
2023-06-08 05:19:07 +03:00
|
|
|
None,
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
);
|
2022-12-02 15:45:17 +03:00
|
|
|
|
|
|
|
serialized_program = plugin_transform_executor
|
refactor(plugin/runner): Revise cache, module loading (#7408)
**Description:**
One of the oversight around design of `TransformExecutor` is
encapsulating plugin module logic. It has access to the cache and do its
own loading & storing. This means consumer of plugin runner have tricky
challenge to control its caching system. First, there is no way to
escape how swc_plugin_runner controls cache and cannot synchronize into
their own, also depends on the usecases cannot control the features they
want to opt in: for example, there's no way one interface uses in-memory
cache, and another uses filesystem since it is compile time configured
singleton.
PR revisits overall design of TransformExecutor: now it accepts a tratir
`PluginModuleBytes`, which abstracts any kind of bytes we are dealing
with, such as raw file slice or serialized `wasmer::Module`. Cache
instantiation and managing is now bubbled up to the application level
(`swc` in here), so if someone wants non-singleton caching or integrate
into their own caching system it can be customized.
Lastly, deprecated `memory_cache` feature and only exposes
`filesystem_cache`. Cache implementation uses in-memory is always
available, and can opt in filesystem cache where it's supported.
**BREAKING CHANGE:**
This is clearly breaking changes for the consumers of swc_core. for the
@swc/core, this PR takes care of necessary changes. I'll work on
next-swc changes later once we have new @swc/core version with this
changes.
2023-05-18 10:05:39 +03:00
|
|
|
.transform(&serialized_program, Some(false))
|
2022-12-02 15:45:17 +03:00
|
|
|
.expect("Plugin should apply transform");
|
|
|
|
|
|
|
|
let program: Stylesheet = serialized_program
|
|
|
|
.deserialize()
|
2023-05-15 06:17:31 +03:00
|
|
|
.expect("Should able to deserialize")
|
|
|
|
.into_inner();
|
2022-12-02 15:45:17 +03:00
|
|
|
|
|
|
|
assert_eq!(parsed, program);
|
|
|
|
|
|
|
|
Ok(())
|
|
|
|
})
|
|
|
|
.expect("Should able to run multiple plugins transform");
|
|
|
|
|
|
|
|
Ok(())
|
|
|
|
}
|