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denoland-deno/cli/tools/registry/pm.rs
2024-11-06 00:36:26 +01:00

907 lines
26 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::path::Path;
use std::path::PathBuf;
use std::sync::Arc;
use deno_core::anyhow::bail;
use deno_core::anyhow::Context;
use deno_core::error::AnyError;
use deno_core::futures::FutureExt;
use deno_core::futures::StreamExt;
use deno_path_util::url_to_file_path;
use deno_semver::jsr::JsrPackageReqReference;
use deno_semver::npm::NpmPackageReqReference;
use deno_semver::package::PackageNv;
use deno_semver::package::PackageReq;
use deno_semver::Version;
use deno_semver::VersionReq;
use jsonc_parser::cst::CstObject;
use jsonc_parser::cst::CstObjectProp;
use jsonc_parser::cst::CstRootNode;
use jsonc_parser::json;
use crate::args::AddFlags;
use crate::args::CacheSetting;
use crate::args::CliOptions;
use crate::args::Flags;
use crate::args::RemoveFlags;
use crate::factory::CliFactory;
use crate::file_fetcher::FileFetcher;
use crate::jsr::JsrFetchResolver;
use crate::npm::NpmFetchResolver;
mod cache_deps;
pub use cache_deps::cache_top_level_deps;
#[derive(Debug, Copy, Clone)]
enum ConfigKind {
DenoJson,
PackageJson,
}
struct ConfigUpdater {
kind: ConfigKind,
cst: CstRootNode,
root_object: CstObject,
path: PathBuf,
modified: bool,
}
impl ConfigUpdater {
fn new(
kind: ConfigKind,
config_file_path: PathBuf,
) -> Result<Self, AnyError> {
let config_file_contents = std::fs::read_to_string(&config_file_path)
.with_context(|| {
format!("Reading config file '{}'", config_file_path.display())
})?;
let cst = CstRootNode::parse(&config_file_contents, &Default::default())
.with_context(|| {
format!("Parsing config file '{}'", config_file_path.display())
})?;
let root_object = cst.object_value_or_set();
Ok(Self {
kind,
cst,
root_object,
path: config_file_path,
modified: false,
})
}
fn display_path(&self) -> String {
deno_path_util::url_from_file_path(&self.path)
.map(|u| u.to_string())
.unwrap_or_else(|_| self.path.display().to_string())
}
fn obj(&self) -> &CstObject {
&self.root_object
}
fn contents(&self) -> String {
self.cst.to_string()
}
fn add(&mut self, selected: SelectedPackage, dev: bool) {
fn insert_index(object: &CstObject, searching_name: &str) -> usize {
object
.properties()
.into_iter()
.take_while(|prop| {
let prop_name =
prop.name().and_then(|name| name.decoded_value().ok());
match prop_name {
Some(current_name) => {
searching_name.cmp(&current_name) == std::cmp::Ordering::Greater
}
None => true,
}
})
.count()
}
match self.kind {
ConfigKind::DenoJson => {
let imports = self.root_object.object_value_or_set("imports");
let value =
format!("{}@{}", selected.package_name, selected.version_req);
if let Some(prop) = imports.get(&selected.import_name) {
prop.set_value(json!(value));
} else {
let index = insert_index(&imports, &selected.import_name);
imports.insert(index, &selected.import_name, json!(value));
}
}
ConfigKind::PackageJson => {
let deps_prop = self.root_object.get("dependencies");
let dev_deps_prop = self.root_object.get("devDependencies");
let dependencies = if dev {
self
.root_object
.object_value("devDependencies")
.unwrap_or_else(|| {
let index = deps_prop
.as_ref()
.map(|p| p.property_index() + 1)
.unwrap_or_else(|| self.root_object.properties().len());
self
.root_object
.insert(index, "devDependencies", json!({}))
.object_value_or_set()
})
} else {
self
.root_object
.object_value("dependencies")
.unwrap_or_else(|| {
let index = dev_deps_prop
.as_ref()
.map(|p| p.property_index())
.unwrap_or_else(|| self.root_object.properties().len());
self
.root_object
.insert(index, "dependencies", json!({}))
.object_value_or_set()
})
};
let other_dependencies = if dev {
deps_prop.and_then(|p| p.value().and_then(|v| v.as_object()))
} else {
dev_deps_prop.and_then(|p| p.value().and_then(|v| v.as_object()))
};
let (alias, value) = package_json_dependency_entry(selected);
if let Some(other) = other_dependencies {
if let Some(prop) = other.get(&alias) {
remove_prop_and_maybe_parent_prop(prop);
}
}
if let Some(prop) = dependencies.get(&alias) {
prop.set_value(json!(value));
} else {
let index = insert_index(&dependencies, &alias);
dependencies.insert(index, &alias, json!(value));
}
}
}
self.modified = true;
}
fn remove(&mut self, package: &str) -> bool {
let removed = match self.kind {
ConfigKind::DenoJson => {
if let Some(prop) = self
.root_object
.object_value("imports")
.and_then(|i| i.get(package))
{
remove_prop_and_maybe_parent_prop(prop);
true
} else {
false
}
}
ConfigKind::PackageJson => {
let deps = [
self
.root_object
.object_value("dependencies")
.and_then(|deps| deps.get(package)),
self
.root_object
.object_value("devDependencies")
.and_then(|deps| deps.get(package)),
];
let removed = deps.iter().any(|d| d.is_some());
for dep in deps.into_iter().flatten() {
remove_prop_and_maybe_parent_prop(dep);
}
removed
}
};
if removed {
self.modified = true;
}
removed
}
fn commit(&self) -> Result<(), AnyError> {
if !self.modified {
return Ok(());
}
let new_text = self.contents();
std::fs::write(&self.path, new_text).with_context(|| {
format!("failed writing to '{}'", self.path.display())
})?;
Ok(())
}
}
fn remove_prop_and_maybe_parent_prop(prop: CstObjectProp) {
let parent = prop.parent().unwrap().as_object().unwrap();
prop.remove();
if parent.properties().is_empty() {
let parent_property = parent.parent().unwrap();
let root_object = parent_property.parent().unwrap().as_object().unwrap();
// remove the property
parent_property.remove();
root_object.ensure_multiline();
}
}
fn create_deno_json(
flags: &Arc<Flags>,
options: &CliOptions,
) -> Result<CliFactory, AnyError> {
std::fs::write(options.initial_cwd().join("deno.json"), "{}\n")
.context("Failed to create deno.json file")?;
log::info!("Created deno.json configuration file.");
let factory = CliFactory::from_flags(flags.clone());
Ok(factory)
}
fn package_json_dependency_entry(
selected: SelectedPackage,
) -> (String, String) {
if let Some(npm_package) = selected.package_name.strip_prefix("npm:") {
if selected.import_name == npm_package {
(npm_package.into(), selected.version_req)
} else {
(
selected.import_name,
format!("npm:{}@{}", npm_package, selected.version_req),
)
}
} else if let Some(jsr_package) = selected.package_name.strip_prefix("jsr:") {
let jsr_package = jsr_package.strip_prefix('@').unwrap_or(jsr_package);
let scope_replaced = jsr_package.replace('/', "__");
let version_req =
format!("npm:@jsr/{scope_replaced}@{}", selected.version_req);
(selected.import_name, version_req)
} else {
(selected.package_name, selected.version_req)
}
}
#[derive(Clone, Copy)]
/// The name of the subcommand invoking the `add` operation.
pub enum AddCommandName {
Add,
Install,
}
impl std::fmt::Display for AddCommandName {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
AddCommandName::Add => write!(f, "add"),
AddCommandName::Install => write!(f, "install"),
}
}
}
fn load_configs(
flags: &Arc<Flags>,
has_jsr_specifiers: impl FnOnce() -> bool,
) -> Result<(CliFactory, Option<ConfigUpdater>, Option<ConfigUpdater>), AnyError>
{
let cli_factory = CliFactory::from_flags(flags.clone());
let options = cli_factory.cli_options()?;
let start_dir = &options.start_dir;
let npm_config = match start_dir.maybe_pkg_json() {
Some(pkg_json) => Some(ConfigUpdater::new(
ConfigKind::PackageJson,
pkg_json.path.clone(),
)?),
None => None,
};
let deno_config = match start_dir.maybe_deno_json() {
Some(deno_json) => Some(ConfigUpdater::new(
ConfigKind::DenoJson,
url_to_file_path(&deno_json.specifier)?,
)?),
None => None,
};
let (cli_factory, deno_config) = match deno_config {
Some(config) => (cli_factory, Some(config)),
None if npm_config.is_some() && !has_jsr_specifiers() => {
(cli_factory, None)
}
_ => {
let factory = create_deno_json(flags, options)?;
let options = factory.cli_options()?.clone();
let deno_json = options
.start_dir
.maybe_deno_json()
.expect("Just created deno.json");
(
factory,
Some(ConfigUpdater::new(
ConfigKind::DenoJson,
url_to_file_path(&deno_json.specifier)?,
)?),
)
}
};
assert!(deno_config.is_some() || npm_config.is_some());
Ok((cli_factory, npm_config, deno_config))
}
fn path_distance(a: &Path, b: &Path) -> usize {
let diff = pathdiff::diff_paths(a, b);
let Some(diff) = diff else {
return usize::MAX;
};
diff.components().count()
}
pub async fn add(
flags: Arc<Flags>,
add_flags: AddFlags,
cmd_name: AddCommandName,
) -> Result<(), AnyError> {
let (cli_factory, mut npm_config, mut deno_config) =
load_configs(&flags, || {
add_flags.packages.iter().any(|s| s.starts_with("jsr:"))
})?;
if let Some(deno) = &deno_config {
if deno.obj().get("importMap").is_some() {
bail!(
concat!(
"`deno {}` is not supported when configuration file contains an \"importMap\" field. ",
"Inline the import map into the Deno configuration file.\n",
" at {}",
),
cmd_name,
deno.display_path(),
);
}
}
let start_dir = cli_factory.cli_options()?.start_dir.dir_path();
// only prefer to add npm deps to `package.json` if there isn't a closer deno.json.
// example: if deno.json is in the CWD and package.json is in the parent, we should add
// npm deps to deno.json, since it's closer
let prefer_npm_config = match (npm_config.as_ref(), deno_config.as_ref()) {
(Some(npm), Some(deno)) => {
let npm_distance = path_distance(&npm.path, &start_dir);
let deno_distance = path_distance(&deno.path, &start_dir);
npm_distance <= deno_distance
}
(Some(_), None) => true,
(None, _) => false,
};
let http_client = cli_factory.http_client_provider();
let deps_http_cache = cli_factory.global_http_cache()?;
let mut deps_file_fetcher = FileFetcher::new(
deps_http_cache.clone(),
CacheSetting::ReloadAll,
true,
http_client.clone(),
Default::default(),
None,
);
let npmrc = cli_factory.cli_options().unwrap().npmrc();
deps_file_fetcher.set_download_log_level(log::Level::Trace);
let deps_file_fetcher = Arc::new(deps_file_fetcher);
let jsr_resolver = Arc::new(JsrFetchResolver::new(deps_file_fetcher.clone()));
let npm_resolver =
Arc::new(NpmFetchResolver::new(deps_file_fetcher, npmrc.clone()));
let mut selected_packages = Vec::with_capacity(add_flags.packages.len());
let mut package_reqs = Vec::with_capacity(add_flags.packages.len());
for entry_text in add_flags.packages.iter() {
let req = AddRmPackageReq::parse(entry_text).with_context(|| {
format!("Failed to parse package required: {}", entry_text)
})?;
match req {
Ok(add_req) => package_reqs.push(add_req),
Err(package_req) => {
if jsr_resolver.req_to_nv(&package_req).await.is_some() {
bail!(
"{entry_text} is missing a prefix. Did you mean `{}`?",
crate::colors::yellow(format!("deno {cmd_name} jsr:{package_req}"))
)
} else if npm_resolver.req_to_nv(&package_req).await.is_some() {
bail!(
"{entry_text} is missing a prefix. Did you mean `{}`?",
crate::colors::yellow(format!("deno {cmd_name} npm:{package_req}"))
)
} else {
bail!(
"{} was not found in either jsr or npm.",
crate::colors::red(entry_text)
);
}
}
}
}
let package_futures = package_reqs
.into_iter()
.map({
let jsr_resolver = jsr_resolver.clone();
move |package_req| {
find_package_and_select_version_for_req(
jsr_resolver.clone(),
npm_resolver.clone(),
package_req,
)
.boxed_local()
}
})
.collect::<Vec<_>>();
let stream_of_futures = deno_core::futures::stream::iter(package_futures);
let mut buffered = stream_of_futures.buffered(10);
while let Some(package_and_version_result) = buffered.next().await {
let package_and_version = package_and_version_result?;
match package_and_version {
PackageAndVersion::NotFound {
package: package_name,
help,
package_req,
} => match help {
Some(NotFoundHelp::NpmPackage) => {
bail!(
"{} was not found, but a matching npm package exists. Did you mean `{}`?",
crate::colors::red(package_name),
crate::colors::yellow(format!("deno {cmd_name} npm:{package_req}"))
);
}
Some(NotFoundHelp::JsrPackage) => {
bail!(
"{} was not found, but a matching jsr package exists. Did you mean `{}`?",
crate::colors::red(package_name),
crate::colors::yellow(format!("deno {cmd_name} jsr:{package_req}"))
)
}
Some(NotFoundHelp::PreReleaseVersion(version)) => {
bail!(
"{} has only pre-release versions available. Try specifying a version: `{}`",
crate::colors::red(&package_name),
crate::colors::yellow(format!("deno {cmd_name} {package_name}@^{version}"))
)
}
None => bail!("{} was not found.", crate::colors::red(package_name)),
},
PackageAndVersion::Selected(selected) => {
selected_packages.push(selected);
}
}
}
let dev = add_flags.dev;
for selected_package in selected_packages {
log::info!(
"Add {}{}{}",
crate::colors::green(&selected_package.package_name),
crate::colors::gray("@"),
selected_package.selected_version
);
if selected_package.package_name.starts_with("npm:") && prefer_npm_config {
if let Some(npm) = &mut npm_config {
npm.add(selected_package, dev);
} else {
deno_config.as_mut().unwrap().add(selected_package, dev);
}
} else if let Some(deno) = &mut deno_config {
deno.add(selected_package, dev);
} else {
npm_config.as_mut().unwrap().add(selected_package, dev);
}
}
if let Some(npm) = npm_config {
npm.commit()?;
}
if let Some(deno) = deno_config {
deno.commit()?;
}
npm_install_after_modification(flags, Some(jsr_resolver)).await?;
Ok(())
}
struct SelectedPackage {
import_name: String,
package_name: String,
version_req: String,
selected_version: String,
}
enum NotFoundHelp {
NpmPackage,
JsrPackage,
PreReleaseVersion(Version),
}
enum PackageAndVersion {
NotFound {
package: String,
package_req: PackageReq,
help: Option<NotFoundHelp>,
},
Selected(SelectedPackage),
}
fn best_version<'a>(
versions: impl Iterator<Item = &'a Version>,
) -> Option<&'a Version> {
let mut maybe_best_version: Option<&Version> = None;
for version in versions {
let is_best_version = maybe_best_version
.as_ref()
.map(|best_version| (*best_version).cmp(version).is_lt())
.unwrap_or(true);
if is_best_version {
maybe_best_version = Some(version);
}
}
maybe_best_version
}
trait PackageInfoProvider {
const SPECIFIER_PREFIX: &str;
/// The help to return if a package is found by this provider
const HELP: NotFoundHelp;
async fn req_to_nv(&self, req: &PackageReq) -> Option<PackageNv>;
async fn latest_version<'a>(&self, req: &PackageReq) -> Option<Version>;
}
impl PackageInfoProvider for Arc<JsrFetchResolver> {
const HELP: NotFoundHelp = NotFoundHelp::JsrPackage;
const SPECIFIER_PREFIX: &str = "jsr";
async fn req_to_nv(&self, req: &PackageReq) -> Option<PackageNv> {
(**self).req_to_nv(req).await
}
async fn latest_version<'a>(&self, req: &PackageReq) -> Option<Version> {
let info = self.package_info(&req.name).await?;
best_version(
info
.versions
.iter()
.filter(|(_, version_info)| !version_info.yanked)
.map(|(version, _)| version),
)
.cloned()
}
}
impl PackageInfoProvider for Arc<NpmFetchResolver> {
const HELP: NotFoundHelp = NotFoundHelp::NpmPackage;
const SPECIFIER_PREFIX: &str = "npm";
async fn req_to_nv(&self, req: &PackageReq) -> Option<PackageNv> {
(**self).req_to_nv(req).await
}
async fn latest_version<'a>(&self, req: &PackageReq) -> Option<Version> {
let info = self.package_info(&req.name).await?;
best_version(info.versions.keys()).cloned()
}
}
async fn find_package_and_select_version_for_req(
jsr_resolver: Arc<JsrFetchResolver>,
npm_resolver: Arc<NpmFetchResolver>,
add_package_req: AddRmPackageReq,
) -> Result<PackageAndVersion, AnyError> {
async fn select<T: PackageInfoProvider, S: PackageInfoProvider>(
main_resolver: T,
fallback_resolver: S,
add_package_req: AddRmPackageReq,
) -> Result<PackageAndVersion, AnyError> {
let req = match &add_package_req.value {
AddRmPackageReqValue::Jsr(req) => req,
AddRmPackageReqValue::Npm(req) => req,
};
let prefixed_name = format!("{}:{}", T::SPECIFIER_PREFIX, req.name);
let help_if_found_in_fallback = S::HELP;
let Some(nv) = main_resolver.req_to_nv(req).await else {
if fallback_resolver.req_to_nv(req).await.is_some() {
// it's in the other registry
return Ok(PackageAndVersion::NotFound {
package: prefixed_name,
help: Some(help_if_found_in_fallback),
package_req: req.clone(),
});
}
if req.version_req.version_text() == "*" {
if let Some(pre_release_version) =
main_resolver.latest_version(req).await
{
return Ok(PackageAndVersion::NotFound {
package: prefixed_name,
package_req: req.clone(),
help: Some(NotFoundHelp::PreReleaseVersion(
pre_release_version.clone(),
)),
});
}
}
return Ok(PackageAndVersion::NotFound {
package: prefixed_name,
help: None,
package_req: req.clone(),
});
};
let range_symbol = if req.version_req.version_text().starts_with('~') {
"~"
} else if req.version_req.version_text() == nv.version.to_string() {
""
} else {
"^"
};
Ok(PackageAndVersion::Selected(SelectedPackage {
import_name: add_package_req.alias,
package_name: prefixed_name,
version_req: format!("{}{}", range_symbol, &nv.version),
selected_version: nv.version.to_string(),
}))
}
match &add_package_req.value {
AddRmPackageReqValue::Jsr(_) => {
select(jsr_resolver, npm_resolver, add_package_req).await
}
AddRmPackageReqValue::Npm(_) => {
select(npm_resolver, jsr_resolver, add_package_req).await
}
}
}
#[derive(Debug, PartialEq, Eq)]
enum AddRmPackageReqValue {
Jsr(PackageReq),
Npm(PackageReq),
}
#[derive(Debug, PartialEq, Eq)]
struct AddRmPackageReq {
alias: String,
value: AddRmPackageReqValue,
}
impl AddRmPackageReq {
pub fn parse(entry_text: &str) -> Result<Result<Self, PackageReq>, AnyError> {
enum Prefix {
Jsr,
Npm,
}
fn parse_prefix(text: &str) -> (Option<Prefix>, &str) {
if let Some(text) = text.strip_prefix("jsr:") {
(Some(Prefix::Jsr), text)
} else if let Some(text) = text.strip_prefix("npm:") {
(Some(Prefix::Npm), text)
} else {
(None, text)
}
}
// parse the following:
// - alias@npm:<package_name>
// - other_alias@npm:<package_name>
// - @alias/other@jsr:<package_name>
fn parse_alias(entry_text: &str) -> Option<(&str, &str)> {
for prefix in ["npm:", "jsr:"] {
let Some(location) = entry_text.find(prefix) else {
continue;
};
let prefix = &entry_text[..location];
if let Some(alias) = prefix.strip_suffix('@') {
return Some((alias, &entry_text[location..]));
}
}
None
}
let (maybe_prefix, entry_text) = parse_prefix(entry_text);
let (prefix, maybe_alias, entry_text) = match maybe_prefix {
Some(prefix) => (prefix, None, entry_text),
None => match parse_alias(entry_text) {
Some((alias, text)) => {
let (maybe_prefix, entry_text) = parse_prefix(text);
if maybe_prefix.is_none() {
return Ok(Err(PackageReq::from_str(entry_text)?));
}
(maybe_prefix.unwrap(), Some(alias.to_string()), entry_text)
}
None => return Ok(Err(PackageReq::from_str(entry_text)?)),
},
};
match prefix {
Prefix::Jsr => {
let req_ref =
JsrPackageReqReference::from_str(&format!("jsr:{}", entry_text))?;
let package_req = req_ref.into_inner().req;
Ok(Ok(AddRmPackageReq {
alias: maybe_alias.unwrap_or_else(|| package_req.name.to_string()),
value: AddRmPackageReqValue::Jsr(package_req),
}))
}
Prefix::Npm => {
let req_ref =
NpmPackageReqReference::from_str(&format!("npm:{}", entry_text))?;
let mut package_req = req_ref.into_inner().req;
// deno_semver defaults to a version req of `*` if none is specified
// we want to default to `latest` instead
if package_req.version_req == *deno_semver::WILDCARD_VERSION_REQ
&& package_req.version_req.version_text() == "*"
&& !entry_text.contains("@*")
{
package_req.version_req = VersionReq::from_raw_text_and_inner(
"latest".into(),
deno_semver::RangeSetOrTag::Tag("latest".into()),
);
}
Ok(Ok(AddRmPackageReq {
alias: maybe_alias.unwrap_or_else(|| package_req.name.to_string()),
value: AddRmPackageReqValue::Npm(package_req),
}))
}
}
}
}
pub async fn remove(
flags: Arc<Flags>,
remove_flags: RemoveFlags,
) -> Result<(), AnyError> {
let (_, npm_config, deno_config) = load_configs(&flags, || false)?;
let mut configs = [npm_config, deno_config];
let mut removed_packages = vec![];
for package in &remove_flags.packages {
let req = AddRmPackageReq::parse(package).with_context(|| {
format!("Failed to parse package required: {}", package)
})?;
let mut parsed_pkg_name = None;
for config in configs.iter_mut().flatten() {
match &req {
Ok(rm_pkg) => {
if config.remove(&rm_pkg.alias) && parsed_pkg_name.is_none() {
parsed_pkg_name = Some(rm_pkg.alias.clone());
}
}
Err(pkg) => {
// An alias or a package name without registry/version
// constraints. Try to remove the package anyway.
if config.remove(&pkg.name) && parsed_pkg_name.is_none() {
parsed_pkg_name = Some(pkg.name.clone());
}
}
}
}
if let Some(pkg) = parsed_pkg_name {
removed_packages.push(pkg);
}
}
if removed_packages.is_empty() {
log::info!("No packages were removed");
} else {
for package in &removed_packages {
log::info!("Removed {}", crate::colors::green(package));
}
for config in configs.into_iter().flatten() {
config.commit()?;
}
npm_install_after_modification(flags, None).await?;
}
Ok(())
}
async fn npm_install_after_modification(
flags: Arc<Flags>,
// explicitly provided to prevent redownloading
jsr_resolver: Option<Arc<crate::jsr::JsrFetchResolver>>,
) -> Result<(), AnyError> {
// clear the previously cached package.json from memory before reloading it
node_resolver::PackageJsonThreadLocalCache::clear();
// make a new CliFactory to pick up the updated config file
let cli_factory = CliFactory::from_flags(flags);
// surface any errors in the package.json
let npm_resolver = cli_factory.npm_resolver().await?;
if let Some(npm_resolver) = npm_resolver.as_managed() {
npm_resolver.ensure_no_pkg_json_dep_errors()?;
}
// npm install
cache_deps::cache_top_level_deps(&cli_factory, jsr_resolver).await?;
if let Some(lockfile) = cli_factory.cli_options()?.maybe_lockfile() {
lockfile.write_if_changed()?;
}
Ok(())
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_parse_add_package_req() {
assert_eq!(
AddRmPackageReq::parse("jsr:foo").unwrap().unwrap(),
AddRmPackageReq {
alias: "foo".to_string(),
value: AddRmPackageReqValue::Jsr(PackageReq::from_str("foo").unwrap())
}
);
assert_eq!(
AddRmPackageReq::parse("alias@jsr:foo").unwrap().unwrap(),
AddRmPackageReq {
alias: "alias".to_string(),
value: AddRmPackageReqValue::Jsr(PackageReq::from_str("foo").unwrap())
}
);
assert_eq!(
AddRmPackageReq::parse("@alias/pkg@npm:foo")
.unwrap()
.unwrap(),
AddRmPackageReq {
alias: "@alias/pkg".to_string(),
value: AddRmPackageReqValue::Npm(
PackageReq::from_str("foo@latest").unwrap()
)
}
);
assert_eq!(
AddRmPackageReq::parse("@alias/pkg@jsr:foo")
.unwrap()
.unwrap(),
AddRmPackageReq {
alias: "@alias/pkg".to_string(),
value: AddRmPackageReqValue::Jsr(PackageReq::from_str("foo").unwrap())
}
);
assert_eq!(
AddRmPackageReq::parse("alias@jsr:foo@^1.5.0")
.unwrap()
.unwrap(),
AddRmPackageReq {
alias: "alias".to_string(),
value: AddRmPackageReqValue::Jsr(
PackageReq::from_str("foo@^1.5.0").unwrap()
)
}
);
assert_eq!(
AddRmPackageReq::parse("@scope/pkg@tag")
.unwrap()
.unwrap_err()
.to_string(),
"@scope/pkg@tag",
);
}
}