1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-12-18 05:14:21 -05:00
denoland-deno/cli/args/flags.rs
David Sherret cc406c8360
feat(vendor): support for npm specifiers (#19186)
We never properly added support for this. This fixes vendoring when it
has npm or node specifiers. Vendoring occurs by adding a
`"nodeModulesDir": true` property to deno.json then it uses a local
node_modules directory. This can be opted out by setting
`"nodeModulesDir": false` or running with `--node-modules-dir=false`.

Closes #18090
Closes #17210
Closes #17619
Closes #16778
2023-05-19 22:39:27 +00:00

6763 lines
175 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use clap::value_parser;
use clap::Arg;
use clap::ArgAction;
use clap::ArgMatches;
use clap::ColorChoice;
use clap::Command;
use clap::ValueHint;
use deno_core::resolve_url_or_path;
use deno_core::url::Url;
use deno_runtime::permissions::parse_sys_kind;
use log::debug;
use log::Level;
use std::env;
use std::net::SocketAddr;
use std::num::NonZeroU32;
use std::num::NonZeroU8;
use std::num::NonZeroUsize;
use std::path::Path;
use std::path::PathBuf;
use std::str::FromStr;
use crate::util::fs::canonicalize_path;
use super::flags_allow_net;
#[derive(Clone, Debug, Default, Eq, PartialEq)]
pub struct FileFlags {
pub ignore: Vec<PathBuf>,
pub include: Vec<PathBuf>,
}
#[derive(Clone, Debug, Default, Eq, PartialEq)]
pub struct BenchFlags {
pub files: FileFlags,
pub filter: Option<String>,
pub json: bool,
pub no_run: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct BundleFlags {
pub source_file: String,
pub out_file: Option<PathBuf>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct CacheFlags {
pub files: Vec<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct CheckFlags {
pub files: Vec<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct CompileFlags {
pub source_file: String,
pub output: Option<PathBuf>,
pub args: Vec<String>,
pub target: Option<String>,
pub include: Vec<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct CompletionsFlags {
pub buf: Box<[u8]>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct CoverageFlags {
pub files: FileFlags,
pub output: Option<PathBuf>,
pub include: Vec<String>,
pub exclude: Vec<String>,
pub lcov: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum DocSourceFileFlag {
Builtin,
Path(String),
}
impl Default for DocSourceFileFlag {
fn default() -> Self {
Self::Builtin
}
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct DocFlags {
pub private: bool,
pub json: bool,
pub source_file: DocSourceFileFlag,
pub filter: Option<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct EvalFlags {
pub print: bool,
pub code: String,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct FmtFlags {
pub check: bool,
pub files: FileFlags,
pub use_tabs: Option<bool>,
pub line_width: Option<NonZeroU32>,
pub indent_width: Option<NonZeroU8>,
pub single_quote: Option<bool>,
pub prose_wrap: Option<String>,
pub no_semicolons: Option<bool>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct InitFlags {
pub dir: Option<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct InfoFlags {
pub json: bool,
pub file: Option<String>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct InstallFlags {
pub module_url: String,
pub args: Vec<String>,
pub name: Option<String>,
pub root: Option<PathBuf>,
pub force: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct UninstallFlags {
pub name: String,
pub root: Option<PathBuf>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct LintFlags {
pub files: FileFlags,
pub rules: bool,
pub maybe_rules_tags: Option<Vec<String>>,
pub maybe_rules_include: Option<Vec<String>>,
pub maybe_rules_exclude: Option<Vec<String>>,
pub json: bool,
pub compact: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct ReplFlags {
pub eval_files: Option<Vec<String>>,
pub eval: Option<String>,
pub is_default_command: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct RunFlags {
pub script: String,
}
impl RunFlags {
pub fn is_stdin(&self) -> bool {
self.script == "-"
}
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct TaskFlags {
pub cwd: Option<String>,
pub task: Option<String>,
}
#[derive(Clone, Debug, Default, Eq, PartialEq)]
pub struct TestFlags {
pub doc: bool,
pub no_run: bool,
pub fail_fast: Option<NonZeroUsize>,
pub files: FileFlags,
pub allow_none: bool,
pub filter: Option<String>,
pub shuffle: Option<u64>,
pub concurrent_jobs: Option<NonZeroUsize>,
pub trace_ops: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct UpgradeFlags {
pub dry_run: bool,
pub force: bool,
pub canary: bool,
pub version: Option<String>,
pub output: Option<PathBuf>,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct VendorFlags {
pub specifiers: Vec<String>,
pub output_path: Option<PathBuf>,
pub force: bool,
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum DenoSubcommand {
Bench(BenchFlags),
Bundle(BundleFlags),
Cache(CacheFlags),
Check(CheckFlags),
Compile(CompileFlags),
Completions(CompletionsFlags),
Coverage(CoverageFlags),
Doc(DocFlags),
Eval(EvalFlags),
Fmt(FmtFlags),
Init(InitFlags),
Info(InfoFlags),
Install(InstallFlags),
Uninstall(UninstallFlags),
Lsp,
Lint(LintFlags),
Repl(ReplFlags),
Run(RunFlags),
Task(TaskFlags),
Test(TestFlags),
Types,
Upgrade(UpgradeFlags),
Vendor(VendorFlags),
}
impl Default for DenoSubcommand {
fn default() -> DenoSubcommand {
DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: None,
is_default_command: true,
})
}
}
#[derive(Debug, Clone, Copy, Eq, PartialEq)]
pub enum TypeCheckMode {
/// Type-check all modules.
All,
/// Skip type-checking of all modules. The default value for "deno run" and
/// several other subcommands.
None,
/// Only type-check local modules. The default value for "deno test" and
/// several other subcommands.
Local,
}
impl Default for TypeCheckMode {
fn default() -> Self {
Self::None
}
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum ConfigFlag {
Discover,
Path(String),
Disabled,
}
impl Default for ConfigFlag {
fn default() -> Self {
Self::Discover
}
}
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum CaData {
/// The string is a file path
File(String),
/// This variant is not exposed as an option in the CLI, it is used internally
/// for standalone binaries.
Bytes(Vec<u8>),
}
#[derive(Clone, Debug, Eq, PartialEq, Default)]
pub struct Flags {
/// Vector of CLI arguments - these are user script arguments, all Deno
/// specific flags are removed.
pub argv: Vec<String>,
pub subcommand: DenoSubcommand,
pub allow_all: bool,
pub allow_env: Option<Vec<String>>,
pub allow_hrtime: bool,
pub allow_net: Option<Vec<String>>,
pub allow_ffi: Option<Vec<PathBuf>>,
pub allow_read: Option<Vec<PathBuf>>,
pub allow_run: Option<Vec<String>>,
pub allow_sys: Option<Vec<String>>,
pub allow_write: Option<Vec<PathBuf>>,
pub ca_stores: Option<Vec<String>>,
pub ca_data: Option<CaData>,
pub cache_blocklist: Vec<String>,
/// This is not exposed as an option in the CLI, it is used internally when
/// the language server is configured with an explicit cache option.
pub cache_path: Option<PathBuf>,
pub cached_only: bool,
pub type_check_mode: TypeCheckMode,
pub config_flag: ConfigFlag,
pub node_modules_dir: Option<bool>,
pub coverage_dir: Option<String>,
pub enable_testing_features: bool,
pub ext: Option<String>,
pub ignore: Vec<PathBuf>,
pub import_map_path: Option<String>,
pub inspect_brk: Option<SocketAddr>,
pub inspect_wait: Option<SocketAddr>,
pub inspect: Option<SocketAddr>,
pub location: Option<Url>,
pub lock_write: bool,
pub lock: Option<PathBuf>,
pub log_level: Option<Level>,
pub no_remote: bool,
pub no_lock: bool,
pub no_npm: bool,
pub no_prompt: bool,
pub reload: bool,
pub seed: Option<u64>,
pub unstable: bool,
pub unsafely_ignore_certificate_errors: Option<Vec<String>>,
pub v8_flags: Vec<String>,
pub version: bool,
pub watch: Option<Vec<PathBuf>>,
pub no_clear_screen: bool,
}
fn join_paths(allowlist: &[PathBuf], d: &str) -> String {
allowlist
.iter()
.map(|path| path.to_str().unwrap().to_string())
.collect::<Vec<String>>()
.join(d)
}
impl Flags {
/// Return list of permission arguments that are equivalent
/// to the ones used to create `self`.
pub fn to_permission_args(&self) -> Vec<String> {
let mut args = vec![];
if self.allow_all {
args.push("--allow-all".to_string());
return args;
}
match &self.allow_read {
Some(read_allowlist) if read_allowlist.is_empty() => {
args.push("--allow-read".to_string());
}
Some(read_allowlist) => {
let s = format!("--allow-read={}", join_paths(read_allowlist, ","));
args.push(s);
}
_ => {}
}
match &self.allow_write {
Some(write_allowlist) if write_allowlist.is_empty() => {
args.push("--allow-write".to_string());
}
Some(write_allowlist) => {
let s = format!("--allow-write={}", join_paths(write_allowlist, ","));
args.push(s);
}
_ => {}
}
match &self.allow_net {
Some(net_allowlist) if net_allowlist.is_empty() => {
args.push("--allow-net".to_string());
}
Some(net_allowlist) => {
let s = format!("--allow-net={}", net_allowlist.join(","));
args.push(s);
}
_ => {}
}
match &self.unsafely_ignore_certificate_errors {
Some(ic_allowlist) if ic_allowlist.is_empty() => {
args.push("--unsafely-ignore-certificate-errors".to_string());
}
Some(ic_allowlist) => {
let s = format!(
"--unsafely-ignore-certificate-errors={}",
ic_allowlist.join(",")
);
args.push(s);
}
_ => {}
}
match &self.allow_env {
Some(env_allowlist) if env_allowlist.is_empty() => {
args.push("--allow-env".to_string());
}
Some(env_allowlist) => {
let s = format!("--allow-env={}", env_allowlist.join(","));
args.push(s);
}
_ => {}
}
match &self.allow_run {
Some(run_allowlist) if run_allowlist.is_empty() => {
args.push("--allow-run".to_string());
}
Some(run_allowlist) => {
let s = format!("--allow-run={}", run_allowlist.join(","));
args.push(s);
}
_ => {}
}
match &self.allow_sys {
Some(sys_allowlist) if sys_allowlist.is_empty() => {
args.push("--allow-sys".to_string());
}
Some(sys_allowlist) => {
let s = format!("--allow-sys={}", sys_allowlist.join(","));
args.push(s)
}
_ => {}
}
match &self.allow_ffi {
Some(ffi_allowlist) if ffi_allowlist.is_empty() => {
args.push("--allow-ffi".to_string());
}
Some(ffi_allowlist) => {
let s = format!("--allow-ffi={}", join_paths(ffi_allowlist, ","));
args.push(s);
}
_ => {}
}
if self.allow_hrtime {
args.push("--allow-hrtime".to_string());
}
args
}
/// Extract path arguments for config search paths.
/// If it returns Some(vec), the config should be discovered
/// from the passed `current_dir` after trying to discover from each entry in
/// the returned vector.
/// If it returns None, the config file shouldn't be discovered at all.
pub fn config_path_args(&self, current_dir: &Path) -> Option<Vec<PathBuf>> {
use DenoSubcommand::*;
match &self.subcommand {
Fmt(FmtFlags { files, .. }) => Some(files.include.clone()),
Lint(LintFlags { files, .. }) => Some(files.include.clone()),
Run(RunFlags { script }) => {
if let Ok(module_specifier) = resolve_url_or_path(script, current_dir) {
if module_specifier.scheme() == "file"
|| module_specifier.scheme() == "npm"
{
if let Ok(p) = module_specifier.to_file_path() {
Some(vec![p])
} else {
Some(vec![])
}
} else {
// When the entrypoint doesn't have file: scheme (it's the remote
// script), then we don't auto discover config file.
None
}
} else {
Some(vec![])
}
}
Task(TaskFlags {
cwd: Some(path), ..
}) => {
// attempt to resolve the config file from the task subcommand's
// `--cwd` when specified
match canonicalize_path(&PathBuf::from(path)) {
Ok(path) => Some(vec![path]),
Err(_) => Some(vec![]),
}
}
_ => Some(vec![]),
}
}
/// Extract path argument for `package.json` search paths.
/// If it returns Some(path), the `package.json` should be discovered
/// from the `path` dir.
/// If it returns None, the `package.json` file shouldn't be discovered at
/// all.
pub fn package_json_search_dir(&self, current_dir: &Path) -> Option<PathBuf> {
use DenoSubcommand::*;
match &self.subcommand {
Run(RunFlags { script }) => {
let module_specifier = resolve_url_or_path(script, current_dir).ok()?;
if module_specifier.scheme() == "file" {
let p = module_specifier
.to_file_path()
.unwrap()
.parent()?
.to_owned();
Some(p)
} else if module_specifier.scheme() == "npm" {
Some(std::env::current_dir().unwrap())
} else {
None
}
}
Task(TaskFlags { cwd: Some(cwd), .. }) => {
resolve_url_or_path(cwd, current_dir)
.ok()?
.to_file_path()
.ok()
}
Task(_) | Check(_) | Coverage(_) | Cache(_) | Info(_) | Eval(_)
| Test(_) | Bench(_) | Repl(_) | Compile(_) => {
std::env::current_dir().ok()
}
Bundle(_) | Completions(_) | Doc(_) | Fmt(_) | Init(_) | Install(_)
| Uninstall(_) | Lsp | Lint(_) | Types | Upgrade(_) | Vendor(_) => None,
}
}
pub fn has_permission(&self) -> bool {
self.allow_all
|| self.allow_hrtime
|| self.allow_env.is_some()
|| self.allow_ffi.is_some()
|| self.allow_net.is_some()
|| self.allow_read.is_some()
|| self.allow_run.is_some()
|| self.allow_sys.is_some()
|| self.allow_write.is_some()
}
pub fn has_permission_in_argv(&self) -> bool {
self.argv.iter().any(|arg| {
arg == "--allow-all"
|| arg == "--allow-hrtime"
|| arg.starts_with("--allow-env")
|| arg.starts_with("--allow-ffi")
|| arg.starts_with("--allow-net")
|| arg.starts_with("--allow-read")
|| arg.starts_with("--allow-run")
|| arg.starts_with("--allow-sys")
|| arg.starts_with("--allow-write")
})
}
}
static ENV_VARIABLES_HELP: &str = r#"ENVIRONMENT VARIABLES:
DENO_AUTH_TOKENS A semi-colon separated list of bearer tokens and
hostnames to use when fetching remote modules from
private repositories
(e.g. "abcde12345@deno.land;54321edcba@github.com")
DENO_TLS_CA_STORE Comma-separated list of order dependent certificate
stores. Possible values: "system", "mozilla".
Defaults to "mozilla".
DENO_CERT Load certificate authority from PEM encoded file
DENO_DIR Set the cache directory
DENO_INSTALL_ROOT Set deno install's output directory
(defaults to $HOME/.deno/bin)
DENO_REPL_HISTORY Set REPL history file path
History file is disabled when the value is empty
(defaults to $DENO_DIR/deno_history.txt)
DENO_NO_PACKAGE_JSON Disables auto-resolution of package.json
DENO_NO_PROMPT Set to disable permission prompts on access
(alternative to passing --no-prompt on invocation)
DENO_NO_UPDATE_CHECK Set to disable checking if a newer Deno version is
available
DENO_V8_FLAGS Set V8 command line options
DENO_JOBS Number of parallel workers used for the --parallel
flag with the test subcommand. Defaults to number
of available CPUs.
HTTP_PROXY Proxy address for HTTP requests
(module downloads, fetch)
HTTPS_PROXY Proxy address for HTTPS requests
(module downloads, fetch)
NPM_CONFIG_REGISTRY URL to use for the npm registry.
NO_COLOR Set to disable color
NO_PROXY Comma-separated list of hosts which do not use a proxy
(module downloads, fetch)"#;
static DENO_HELP: &str = concat!(
"A modern JavaScript and TypeScript runtime
Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"
Modules: https://deno.land/std/ https://deno.land/x/
Bugs: https://github.com/denoland/deno/issues
To start the REPL:
deno
To execute a script:
deno run https://deno.land/std/examples/welcome.ts
To evaluate code in the shell:
deno eval \"console.log(30933 + 404)\"
"
);
/// Main entry point for parsing deno's command line flags.
pub fn flags_from_vec(args: Vec<String>) -> clap::error::Result<Flags> {
let mut app = clap_root();
let mut matches = app.try_get_matches_from_mut(&args)?;
let mut flags = Flags::default();
if matches.get_flag("unstable") {
flags.unstable = true;
}
if matches.get_flag("quiet") {
flags.log_level = Some(Level::Error);
} else if let Some(log_level) = matches.get_one::<String>("log-level") {
flags.log_level = match log_level.as_str() {
"debug" => Some(Level::Debug),
"info" => Some(Level::Info),
_ => unreachable!(),
};
}
if let Some((subcommand, mut m)) = matches.remove_subcommand() {
match subcommand.as_str() {
"bench" => bench_parse(&mut flags, &mut m),
"bundle" => bundle_parse(&mut flags, &mut m),
"cache" => cache_parse(&mut flags, &mut m),
"check" => check_parse(&mut flags, &mut m),
"compile" => compile_parse(&mut flags, &mut m),
"completions" => completions_parse(&mut flags, &mut m, app),
"coverage" => coverage_parse(&mut flags, &mut m),
"doc" => doc_parse(&mut flags, &mut m),
"eval" => eval_parse(&mut flags, &mut m),
"fmt" => fmt_parse(&mut flags, &mut m),
"init" => init_parse(&mut flags, &mut m),
"info" => info_parse(&mut flags, &mut m),
"install" => install_parse(&mut flags, &mut m),
"lint" => lint_parse(&mut flags, &mut m),
"lsp" => lsp_parse(&mut flags, &mut m),
"repl" => repl_parse(&mut flags, &mut m),
"run" => run_parse(&mut flags, &mut m),
"task" => task_parse(&mut flags, &mut m),
"test" => test_parse(&mut flags, &mut m),
"types" => types_parse(&mut flags, &mut m),
"uninstall" => uninstall_parse(&mut flags, &mut m),
"upgrade" => upgrade_parse(&mut flags, &mut m),
"vendor" => vendor_parse(&mut flags, &mut m),
_ => unreachable!(),
}
} else {
handle_repl_flags(
&mut flags,
ReplFlags {
eval_files: None,
eval: None,
is_default_command: true,
},
)
}
Ok(flags)
}
fn handle_repl_flags(flags: &mut Flags, repl_flags: ReplFlags) {
// If user runs just `deno` binary we enter REPL and allow all permissions.
if repl_flags.is_default_command {
flags.allow_net = Some(vec![]);
flags.allow_env = Some(vec![]);
flags.allow_run = Some(vec![]);
flags.allow_read = Some(vec![]);
flags.allow_sys = Some(vec![]);
flags.allow_write = Some(vec![]);
flags.allow_ffi = Some(vec![]);
flags.allow_hrtime = true;
}
flags.subcommand = DenoSubcommand::Repl(repl_flags);
}
fn clap_root() -> Command {
let long_version = format!(
"{} ({}, {})\nv8 {}\ntypescript {}",
crate::version::deno(),
if crate::version::is_canary() {
"canary"
} else {
env!("PROFILE")
},
env!("TARGET"),
deno_core::v8_version(),
crate::version::TYPESCRIPT
);
Command::new("deno")
.bin_name("deno")
.color(ColorChoice::Never)
.max_term_width(80)
.version(crate::version::deno())
.long_version(long_version)
.arg(
Arg::new("unstable")
.long("unstable")
.help("Enable unstable features and APIs")
.action(ArgAction::SetTrue)
.global(true),
)
.arg(
Arg::new("log-level")
.short('L')
.long("log-level")
.help("Set log level")
.hide(true)
.value_parser(["debug", "info"])
.global(true),
)
.arg(
Arg::new("quiet")
.short('q')
.long("quiet")
.help("Suppress diagnostic output")
.action(ArgAction::SetTrue)
.global(true),
)
.subcommand(bench_subcommand())
.subcommand(bundle_subcommand())
.subcommand(cache_subcommand())
.subcommand(check_subcommand())
.subcommand(compile_subcommand())
.subcommand(completions_subcommand())
.subcommand(coverage_subcommand())
.subcommand(doc_subcommand())
.subcommand(eval_subcommand())
.subcommand(fmt_subcommand())
.subcommand(init_subcommand())
.subcommand(info_subcommand())
.subcommand(install_subcommand())
.subcommand(uninstall_subcommand())
.subcommand(lsp_subcommand())
.subcommand(lint_subcommand())
.subcommand(repl_subcommand())
.subcommand(run_subcommand())
.subcommand(task_subcommand())
.subcommand(test_subcommand())
.subcommand(types_subcommand())
.subcommand(upgrade_subcommand())
.subcommand(vendor_subcommand())
.long_about(DENO_HELP)
.after_help(ENV_VARIABLES_HELP)
}
fn bench_subcommand() -> Command {
runtime_args(Command::new("bench"), true, false)
.arg(check_arg(true))
.arg(
Arg::new("json")
.long("json")
.action(ArgAction::SetTrue)
.help("UNSTABLE: Output benchmark result in JSON format"),
)
.arg(
Arg::new("ignore")
.long("ignore")
.num_args(1..)
.use_value_delimiter(true)
.require_equals(true)
.help("Ignore files")
.value_parser(value_parser!(PathBuf)),
)
.arg(
Arg::new("filter")
.long("filter")
.allow_hyphen_values(true)
.help("Run benchmarks with this string or pattern in the bench name"),
)
.arg(
Arg::new("files")
.help("List of file names to run")
.num_args(..)
.value_parser(value_parser!(PathBuf))
.action(ArgAction::Append),
)
.arg(
Arg::new("no-run")
.long("no-run")
.help("Cache bench modules, but don't run benchmarks")
.action(ArgAction::SetTrue),
)
.arg(watch_arg(false))
.arg(no_clear_screen_arg())
.arg(script_arg().last(true))
.about("Run benchmarks")
.long_about(
"Run benchmarks using Deno's built-in bench tool.
Evaluate the given modules, run all benches declared with 'Deno.bench()'
and report results to standard output:
deno bench src/fetch_bench.ts src/signal_bench.ts
Directory arguments are expanded to all contained files matching the
glob {*_,*.,}bench.{js,mjs,ts,mts,jsx,tsx}:
deno bench src/",
)
}
fn bundle_subcommand() -> Command {
compile_args(Command::new("bundle"))
.hide(true)
.arg(check_arg(true))
.arg(
Arg::new("source_file")
.required(true)
.value_hint(ValueHint::FilePath),
)
.arg(
Arg::new("out_file")
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::FilePath),
)
.arg(watch_arg(false))
.arg(no_clear_screen_arg())
.arg(executable_ext_arg())
.about("Bundle module and dependencies into single file")
.long_about(
"Output a single JavaScript file with all dependencies.
deno bundle https://deno.land/std/examples/colors.ts colors.bundle.js
If no output file is given, the output is written to standard output:
deno bundle https://deno.land/std/examples/colors.ts",
)
}
fn cache_subcommand() -> Command {
compile_args(Command::new("cache"))
.arg(check_arg(false))
.arg(
Arg::new("file")
.num_args(1..)
.required(true)
.value_hint(ValueHint::FilePath),
)
.about("Cache the dependencies")
.long_about(
"Cache and compile remote dependencies recursively.
Download and compile a module with all of its static dependencies and save
them in the local cache, without running any code:
deno cache https://deno.land/std/http/file_server.ts
Future runs of this module will trigger no downloads or compilation unless
--reload is specified.",
)
}
fn check_subcommand() -> Command {
compile_args_without_check_args(Command::new("check"))
.arg(
Arg::new("all")
.long("all")
.help("Type-check all code, including remote modules and npm packages")
.action(ArgAction::SetTrue)
.conflicts_with("no-remote")
)
.arg(
// past alias for --all
Arg::new("remote")
.long("remote")
.help("Type-check all modules, including remote")
.action(ArgAction::SetTrue)
.conflicts_with("no-remote")
.hide(true)
)
.arg(
Arg::new("file")
.num_args(1..)
.required(true)
.value_hint(ValueHint::FilePath),
)
.about("Type-check the dependencies")
.long_about(
"Download and type-check without execution.
deno check https://deno.land/std/http/file_server.ts
Unless --reload is specified, this command will not re-download already cached dependencies.",
)
}
fn compile_subcommand() -> Command {
runtime_args(Command::new("compile"), true, false)
.arg(script_arg().required(true))
.arg(check_arg(true))
.arg(
Arg::new("include")
.long("include")
.help("UNSTABLE: Additional module to include in the module graph")
.long_help(
"Includes an additional module in the compiled executable's module
graph. Use this flag if a dynamically imported module or a web worker main
module fails to load in the executable. This flag can be passed multiple
times, to include multiple additional modules.",
)
.action(ArgAction::Append)
.value_hint(ValueHint::FilePath),
)
.arg(
Arg::new("output")
.long("output")
.short('o')
.value_parser(value_parser!(PathBuf))
.help("Output file (defaults to $PWD/<inferred-name>)")
.value_hint(ValueHint::FilePath),
)
.arg(
Arg::new("target")
.long("target")
.help("Target OS architecture")
.value_parser([
"x86_64-unknown-linux-gnu",
"x86_64-pc-windows-msvc",
"x86_64-apple-darwin",
"aarch64-apple-darwin",
]),
)
.arg(executable_ext_arg())
.about("UNSTABLE: Compile the script into a self contained executable")
.long_about(
"UNSTABLE: Compiles the given script into a self contained executable.
deno compile -A https://deno.land/std/http/file_server.ts
deno compile --output color_util https://deno.land/std/examples/colors.ts
Any flags passed which affect runtime behavior, such as '--unstable',
'--allow-*', '--v8-flags', etc. are encoded into the output executable and
used at runtime as if they were passed to a similar 'deno run' command.
The executable name is inferred by default: Attempt to take the file stem of
the URL path. The above example would become 'file_server'. If the file stem
is something generic like 'main', 'mod', 'index' or 'cli', and the path has no
parent, take the file name of the parent path. Otherwise settle with the
generic name. If the resulting name has an '@...' suffix, strip it.
Cross-compiling to different target architectures is supported using the
`--target` flag. On the first invocation with deno will download proper
binary and cache it in $DENO_DIR. The aarch64-apple-darwin target is not
supported in canary.
",
)
}
fn completions_subcommand() -> Command {
Command::new("completions")
.disable_help_subcommand(true)
.arg(
Arg::new("shell")
.value_parser(["bash", "fish", "powershell", "zsh", "fig"])
.required(true),
)
.about("Generate shell completions")
.long_about(
"Output shell completion script to standard output.
deno completions bash > /usr/local/etc/bash_completion.d/deno.bash
source /usr/local/etc/bash_completion.d/deno.bash",
)
}
fn coverage_subcommand() -> Command {
Command::new("coverage")
.about("Print coverage reports")
.long_about(
"Print coverage reports from coverage profiles.
Collect a coverage profile with deno test:
deno test --coverage=cov_profile
Print a report to stdout:
deno coverage cov_profile
Include urls that start with the file schema:
deno coverage --include=\"^file:\" cov_profile
Exclude urls ending with test.ts and test.js:
deno coverage --exclude=\"test\\.(ts|js)\" cov_profile
Include urls that start with the file schema and exclude files ending with
test.ts and test.js, for an url to match it must match the include pattern and
not match the exclude pattern:
deno coverage --include=\"^file:\" --exclude=\"test\\.(ts|js)\" cov_profile
Write a report using the lcov format:
deno coverage --lcov --output=cov.lcov cov_profile/
Generate html reports from lcov:
genhtml -o html_cov cov.lcov
",
)
.arg(
Arg::new("ignore")
.long("ignore")
.num_args(1..)
.use_value_delimiter(true)
.require_equals(true)
.help("Ignore coverage files")
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("include")
.long("include")
.num_args(1..)
.action(ArgAction::Append)
.value_name("regex")
.require_equals(true)
.default_value(r"^file:")
.help("Include source files in the report"),
)
.arg(
Arg::new("exclude")
.long("exclude")
.num_args(1..)
.action(ArgAction::Append)
.value_name("regex")
.require_equals(true)
.default_value(r"test\.(js|mjs|ts|jsx|tsx)$")
.help("Exclude source files from the report"),
)
.arg(
Arg::new("lcov")
.long("lcov")
.help("Output coverage report in lcov format")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("output")
.requires("lcov")
.long("output")
.value_parser(value_parser!(PathBuf))
.help("Output file (defaults to stdout) for lcov")
.long_help(
"Exports the coverage report in lcov format to the given file.
Filename should be passed along with '=' For example '--output=foo.lcov'
If no --output arg is specified then the report is written to stdout.",
)
.require_equals(true)
.value_hint(ValueHint::FilePath),
)
.arg(
Arg::new("files")
.num_args(1..)
.value_parser(value_parser!(PathBuf))
.action(ArgAction::Append)
.required(true)
.value_hint(ValueHint::AnyPath),
)
}
fn doc_subcommand() -> Command {
Command::new("doc")
.about("Show documentation for a module")
.long_about(
"Show documentation for a module.
Output documentation to standard output:
deno doc ./path/to/module.ts
Output private documentation to standard output:
deno doc --private ./path/to/module.ts
Output documentation in JSON format:
deno doc --json ./path/to/module.ts
Target a specific symbol:
deno doc ./path/to/module.ts MyClass.someField
Show documentation for runtime built-ins:
deno doc
deno doc --builtin Deno.Listener",
)
.arg(import_map_arg())
.arg(reload_arg())
.arg(lock_arg())
.arg(no_lock_arg())
.arg(no_npm_arg())
.arg(no_remote_arg())
.arg(
Arg::new("json")
.long("json")
.help("Output documentation in JSON format")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("private")
.long("private")
.help("Output private documentation")
.action(ArgAction::SetTrue),
)
// TODO(nayeemrmn): Make `--builtin` a proper option. Blocked by
// https://github.com/clap-rs/clap/issues/1794. Currently `--builtin` is
// just a possible value of `source_file` so leading hyphens must be
// enabled.
.allow_hyphen_values(true)
.arg(Arg::new("source_file").value_hint(ValueHint::FilePath))
.arg(
Arg::new("filter")
.help("Dot separated path to symbol")
.required(false)
.conflicts_with("json"),
)
}
fn eval_subcommand() -> Command {
runtime_args(Command::new("eval"), false, true)
.about("Eval script")
.long_about(
"Evaluate JavaScript from the command line.
deno eval \"console.log('hello world')\"
To evaluate as TypeScript:
deno eval --ext=ts \"const v: string = 'hello'; console.log(v)\"
This command has implicit access to all permissions (--allow-all).",
)
.arg(check_arg(false))
.arg(
// TODO(@satyarohith): remove this argument in 2.0.
Arg::new("ts")
.conflicts_with("ext")
.long("ts")
.short('T')
.help("deprecated: Treat eval input as TypeScript")
.action(ArgAction::SetTrue)
.hide(true),
)
.arg(executable_ext_arg())
.arg(
Arg::new("print")
.long("print")
.short('p')
.help("print result to stdout")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("code_arg")
.num_args(1..)
.action(ArgAction::Append)
.help("Code arg")
.value_name("CODE_ARG")
.required(true),
)
}
fn fmt_subcommand() -> Command {
Command::new("fmt")
.about("Format source files")
.long_about(
"Auto-format JavaScript, TypeScript, Markdown, and JSON files.
deno fmt
deno fmt myfile1.ts myfile2.ts
deno fmt --check
Format stdin and write to stdout:
cat file.ts | deno fmt -
Ignore formatting code by preceding it with an ignore comment:
// deno-fmt-ignore
Ignore formatting a file by adding an ignore comment at the top of the file:
// deno-fmt-ignore-file",
)
.arg(config_arg())
.arg(no_config_arg())
.arg(
Arg::new("check")
.long("check")
.help("Check if the source files are formatted")
.num_args(0),
)
.arg(
Arg::new("ext")
.long("ext")
.help("Set content type of the supplied file")
// prefer using ts for formatting instead of js because ts works in more scenarios
.default_value("ts")
.value_parser(["ts", "tsx", "js", "jsx", "md", "json", "jsonc"]),
)
.arg(
Arg::new("ignore")
.long("ignore")
.value_parser(value_parser!(PathBuf))
.num_args(1..)
.use_value_delimiter(true)
.require_equals(true)
.help("Ignore formatting particular source files")
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("files")
.value_parser(value_parser!(PathBuf))
.num_args(1..)
.action(ArgAction::Append)
.required(false)
.value_hint(ValueHint::AnyPath),
)
.arg(watch_arg(false))
.arg(no_clear_screen_arg())
.arg(
Arg::new("use-tabs")
.long("use-tabs")
.alias("options-use-tabs")
.num_args(0..=1)
.value_parser(value_parser!(bool))
.default_missing_value("true")
.require_equals(true)
.help("Use tabs instead of spaces for indentation. Defaults to false."),
)
.arg(
Arg::new("line-width")
.long("line-width")
.alias("options-line-width")
.help("Define maximum line width. Defaults to 80.")
.value_parser(value_parser!(NonZeroU32)),
)
.arg(
Arg::new("indent-width")
.long("indent-width")
.alias("options-indent-width")
.help("Define indentation width. Defaults to 2.")
.value_parser(value_parser!(NonZeroU8)),
)
.arg(
Arg::new("single-quote")
.long("single-quote")
.alias("options-single-quote")
.num_args(0..=1)
.value_parser(value_parser!(bool))
.default_missing_value("true")
.require_equals(true)
.help("Use single quotes. Defaults to false."),
)
.arg(
Arg::new("prose-wrap")
.long("prose-wrap")
.alias("options-prose-wrap")
.value_parser(["always", "never", "preserve"])
.help("Define how prose should be wrapped. Defaults to always."),
)
.arg(
Arg::new("no-semicolons")
.long("no-semicolons")
.alias("options-no-semicolons")
.num_args(0..=1)
.value_parser(value_parser!(bool))
.default_missing_value("true")
.require_equals(true)
.help("Don't use semicolons except where necessary."),
)
}
fn init_subcommand() -> Command {
Command::new("init").about("Initialize a new project").arg(
Arg::new("dir")
.required(false)
.value_hint(ValueHint::DirPath),
)
}
fn info_subcommand() -> Command {
Command::new("info")
.about("Show info about cache or info related to source file")
.long_about(
"Information about a module or the cache directories.
Get information about a module:
deno info https://deno.land/std/http/file_server.ts
The following information is shown:
local: Local path of the file.
type: JavaScript, TypeScript, or JSON.
emit: Local path of compiled source code. (TypeScript only.)
dependencies: Dependency tree of the source file.
Without any additional arguments, 'deno info' shows:
DENO_DIR: Directory containing Deno-managed files.
Remote modules cache: Subdirectory containing downloaded remote modules.
TypeScript compiler cache: Subdirectory containing TS compiler output.",
)
.arg(Arg::new("file").required(false).value_hint(ValueHint::FilePath))
.arg(reload_arg().requires("file"))
.arg(ca_file_arg())
.arg(
location_arg()
.conflicts_with("file")
.help("Show files used for origin bound APIs like the Web Storage API when running a script with '--location=<HREF>'")
)
.arg(no_check_arg().hide(true)) // TODO(lucacasonato): remove for 2.0
.arg(no_config_arg())
.arg(no_remote_arg())
.arg(no_npm_arg())
.arg(no_lock_arg())
.arg(lock_arg())
.arg(config_arg())
.arg(import_map_arg())
.arg(node_modules_dir_arg())
.arg(
Arg::new("json")
.long("json")
.help("UNSTABLE: Outputs the information in JSON format")
.action(ArgAction::SetTrue),
)
}
fn install_subcommand() -> Command {
runtime_args(Command::new("install"), true, true)
.arg(Arg::new("cmd").required(true).num_args(1..).value_hint(ValueHint::FilePath))
.arg(check_arg(true))
.arg(
Arg::new("name")
.long("name")
.short('n')
.help("Executable file name")
.required(false))
.arg(
Arg::new("root")
.long("root")
.help("Installation root")
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::DirPath))
.arg(
Arg::new("force")
.long("force")
.short('f')
.help("Forcefully overwrite existing installation")
.action(ArgAction::SetTrue))
.about("Install script as an executable")
.long_about(
"Installs a script as an executable in the installation root's bin directory.
deno install --allow-net --allow-read https://deno.land/std/http/file_server.ts
deno install https://deno.land/std/examples/colors.ts
To change the executable name, use -n/--name:
deno install --allow-net --allow-read -n serve https://deno.land/std/http/file_server.ts
The executable name is inferred by default:
- Attempt to take the file stem of the URL path. The above example would
become 'file_server'.
- If the file stem is something generic like 'main', 'mod', 'index' or 'cli',
and the path has no parent, take the file name of the parent path. Otherwise
settle with the generic name.
- If the resulting name has an '@...' suffix, strip it.
To change the installation root, use --root:
deno install --allow-net --allow-read --root /usr/local https://deno.land/std/http/file_server.ts
The installation root is determined, in order of precedence:
- --root option
- DENO_INSTALL_ROOT environment variable
- $HOME/.deno
These must be added to the path manually if required.")
}
fn uninstall_subcommand() -> Command {
Command::new("uninstall")
.arg(Arg::new("name").required(true))
.arg(
Arg::new("root")
.long("root")
.help("Installation root")
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::DirPath))
.about("Uninstall a script previously installed with deno install")
.long_about(
"Uninstalls an executable script in the installation root's bin directory.
deno uninstall serve
To change the installation root, use --root:
deno uninstall --root /usr/local serve
The installation root is determined, in order of precedence:
- --root option
- DENO_INSTALL_ROOT environment variable
- $HOME/.deno")
}
static LSP_HELP: &str = concat!(
"The 'deno lsp' subcommand provides a way for code editors and IDEs to
interact with Deno using the Language Server Protocol. Usually humans do not
use this subcommand directly. For example, 'deno lsp' can provide IDEs with
go-to-definition support and automatic code formatting.
How to connect various editors and IDEs to 'deno lsp':
https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/getting_started/setup_your_environment#editors-and-ides",
);
fn lsp_subcommand() -> Command {
Command::new("lsp")
.about("Start the language server")
.long_about(LSP_HELP)
}
fn lint_subcommand() -> Command {
Command::new("lint")
.about("Lint source files")
.long_about(
"Lint JavaScript/TypeScript source code.
deno lint
deno lint myfile1.ts myfile2.js
Print result as JSON:
deno lint --json
Read from stdin:
cat file.ts | deno lint -
cat file.ts | deno lint --json -
List available rules:
deno lint --rules
Ignore diagnostics on the next line by preceding it with an ignore comment and
rule name:
// deno-lint-ignore no-explicit-any
// deno-lint-ignore require-await no-empty
Names of rules to ignore must be specified after ignore comment.
Ignore linting a file by adding an ignore comment at the top of the file:
// deno-lint-ignore-file
",
)
.arg(
Arg::new("rules")
.long("rules")
.help("List available rules")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("rules-tags")
.long("rules-tags")
.require_equals(true)
.num_args(1..)
.action(ArgAction::Append)
.use_value_delimiter(true)
.conflicts_with("rules")
.help("Use set of rules with a tag"),
)
.arg(
Arg::new("rules-include")
.long("rules-include")
.require_equals(true)
.num_args(1..)
.use_value_delimiter(true)
.conflicts_with("rules")
.help("Include lint rules"),
)
.arg(
Arg::new("rules-exclude")
.long("rules-exclude")
.require_equals(true)
.num_args(1..)
.use_value_delimiter(true)
.conflicts_with("rules")
.help("Exclude lint rules"),
)
.arg(no_config_arg())
.arg(config_arg())
.arg(
Arg::new("ignore")
.long("ignore")
.num_args(1..)
.value_parser(value_parser!(PathBuf))
.use_value_delimiter(true)
.require_equals(true)
.help("Ignore linting particular source files")
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("json")
.long("json")
.help("Output lint result in JSON format")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("compact")
.long("compact")
.help("Output lint result in compact format")
.action(ArgAction::SetTrue)
.conflicts_with("json"),
)
.arg(
Arg::new("files")
.value_parser(value_parser!(PathBuf))
.num_args(1..)
.action(ArgAction::Append)
.required(false)
.value_hint(ValueHint::AnyPath),
)
.arg(watch_arg(false))
.arg(no_clear_screen_arg())
}
fn repl_subcommand() -> Command {
runtime_args(Command::new("repl"), true, true)
.about("Read Eval Print Loop")
.arg(check_arg(false))
.arg(
Arg::new("eval-file")
.long("eval-file")
.num_args(1..)
.use_value_delimiter(true)
.require_equals(true)
.help("Evaluates the provided file(s) as scripts when the REPL starts. Accepts file paths and URLs.")
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("eval")
.long("eval")
.help("Evaluates the provided code when the REPL starts.")
.value_name("code"),
)
}
fn run_subcommand() -> Command {
runtime_args(Command::new("run"), true, true)
.arg(check_arg(false))
.arg(
watch_arg(true)
.conflicts_with("inspect")
.conflicts_with("inspect-wait")
.conflicts_with("inspect-brk"),
)
.arg(no_clear_screen_arg())
.arg(executable_ext_arg())
.arg(
script_arg()
.required_unless_present("v8-flags")
.trailing_var_arg(true),
)
.about("Run a JavaScript or TypeScript program")
.long_about(
"Run a JavaScript or TypeScript program
By default all programs are run in sandbox without access to disk, network or
ability to spawn subprocesses.
deno run https://deno.land/std/examples/welcome.ts
Grant all permissions:
deno run -A https://deno.land/std/http/file_server.ts
Grant permission to read from disk and listen to network:
deno run --allow-read --allow-net https://deno.land/std/http/file_server.ts
Grant permission to read allow-listed files from disk:
deno run --allow-read=/etc https://deno.land/std/http/file_server.ts
Specifying the filename '-' to read the file from stdin.
curl https://deno.land/std/examples/welcome.ts | deno run -",
)
}
fn task_subcommand() -> Command {
Command::new("task")
.allow_external_subcommands(true)
.subcommand_value_name("TASK")
.arg(config_arg())
.arg(
Arg::new("cwd")
.long("cwd")
.value_name("DIR")
.help("Specify the directory to run the task in")
.value_hint(ValueHint::DirPath),
)
.about("Run a task defined in the configuration file")
.long_about(
"Run a task defined in the configuration file
deno task build",
)
}
fn test_subcommand() -> Command {
runtime_args(Command::new("test"), true, true)
.arg(check_arg(true))
.arg(
Arg::new("ignore")
.long("ignore")
.num_args(1..)
.value_parser(value_parser!(PathBuf))
.use_value_delimiter(true)
.require_equals(true)
.help("Ignore files")
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("no-run")
.long("no-run")
.help("Cache test modules, but don't run tests")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("trace-ops")
.long("trace-ops")
.help("Enable tracing of async ops. Useful when debugging leaking ops in test, but impacts test execution time.")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("doc")
.long("doc")
.help("Type-check code blocks in JSDoc and Markdown")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("fail-fast")
.long("fail-fast")
.alias("failfast")
.help("Stop after N errors. Defaults to stopping after first failure.")
.num_args(0..=1)
.require_equals(true)
.value_name("N")
.value_parser(value_parser!(NonZeroUsize)),
)
.arg(
Arg::new("allow-none")
.long("allow-none")
.help("Don't return error code if no test files are found")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("filter")
.allow_hyphen_values(true)
.long("filter")
.help("Run tests with this string or pattern in the test name"),
)
.arg(
Arg::new("shuffle")
.long("shuffle")
.value_name("NUMBER")
.help("Shuffle the order in which the tests are run")
.num_args(0..=1)
.require_equals(true)
.value_parser(value_parser!(u64)),
)
.arg(
Arg::new("coverage")
.long("coverage")
.require_equals(true)
.value_name("DIR")
.conflicts_with("inspect")
.conflicts_with("inspect-wait")
.conflicts_with("inspect-brk")
.help("Collect coverage profile data into DIR"),
)
.arg(
Arg::new("parallel")
.long("parallel")
.help("Run test modules in parallel. Parallelism defaults to the number of available CPUs or the value in the DENO_JOBS environment variable.")
.conflicts_with("jobs")
.action(ArgAction::SetTrue)
)
.arg(
Arg::new("jobs")
.short('j')
.long("jobs")
.help("deprecated: Number of parallel workers, defaults to number of available CPUs when no value is provided. Defaults to 1 when the option is not present.")
.hide(true)
.num_args(0..=1)
.value_parser(value_parser!(NonZeroUsize)),
)
.arg(
Arg::new("files")
.help("List of file names to run")
.num_args(0..)
.action(ArgAction::Append)
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::AnyPath),
)
.arg(
watch_arg(false)
.conflicts_with("no-run")
.conflicts_with("coverage"),
)
.arg(no_clear_screen_arg())
.arg(script_arg().last(true))
.about("Run tests")
.long_about(
"Run tests using Deno's built-in test runner.
Evaluate the given modules, run all tests declared with 'Deno.test()' and
report results to standard output:
deno test src/fetch_test.ts src/signal_test.ts
Directory arguments are expanded to all contained files matching the glob
{*_,*.,}test.{js,mjs,ts,mts,jsx,tsx}:
deno test src/",
)
}
fn types_subcommand() -> Command {
Command::new("types")
.about("Print runtime TypeScript declarations")
.long_about(
"Print runtime TypeScript declarations.
deno types > lib.deno.d.ts
The declaration file could be saved and used for typing information.",
)
}
fn upgrade_subcommand() -> Command {
Command::new("upgrade")
.about("Upgrade deno executable to given version")
.long_about(
"Upgrade deno executable to the given version.
Defaults to latest.
The version is downloaded from
https://github.com/denoland/deno/releases
and is used to replace the current executable.
If you want to not replace the current Deno executable but instead download an
update to a different location, use the --output flag
deno upgrade --output $HOME/my_deno",
)
.arg(
Arg::new("version")
.long("version")
.help("The version to upgrade to"),
)
.arg(
Arg::new("output")
.long("output")
.help("The path to output the updated version to")
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::FilePath),
)
.arg(
Arg::new("dry-run")
.long("dry-run")
.help("Perform all checks without replacing old exe")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("force")
.long("force")
.short('f')
.help("Replace current exe even if not out-of-date")
.action(ArgAction::SetTrue),
)
.arg(
Arg::new("canary")
.long("canary")
.help("Upgrade to canary builds")
.action(ArgAction::SetTrue),
)
.arg(ca_file_arg())
}
fn vendor_subcommand() -> Command {
Command::new("vendor")
.about("Vendor remote modules into a local directory")
.long_about(
"Vendor remote modules into a local directory.
Analyzes the provided modules along with their dependencies, downloads
remote modules to the output directory, and produces an import map that
maps remote specifiers to the downloaded files.
deno vendor main.ts
deno run --import-map vendor/import_map.json main.ts
Remote modules and multiple modules may also be specified:
deno vendor main.ts test.deps.ts https://deno.land/std/path/mod.ts",
)
.arg(
Arg::new("specifiers")
.num_args(1..)
.action(ArgAction::Append)
.required(true),
)
.arg(
Arg::new("output")
.long("output")
.help("The directory to output the vendored modules to")
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::DirPath),
)
.arg(
Arg::new("force")
.long("force")
.short('f')
.help(
"Forcefully overwrite conflicting files in existing output directory",
)
.action(ArgAction::SetTrue),
)
.arg(no_config_arg())
.arg(config_arg())
.arg(import_map_arg())
.arg(lock_arg())
.arg(node_modules_dir_arg())
.arg(reload_arg())
.arg(ca_file_arg())
}
fn compile_args(app: Command) -> Command {
compile_args_without_check_args(app.arg(no_check_arg()))
}
fn compile_args_without_check_args(app: Command) -> Command {
app
.arg(import_map_arg())
.arg(no_remote_arg())
.arg(no_npm_arg())
.arg(node_modules_dir_arg())
.arg(config_arg())
.arg(no_config_arg())
.arg(reload_arg())
.arg(lock_arg())
.arg(lock_write_arg())
.arg(no_lock_arg())
.arg(ca_file_arg())
}
static ALLOW_READ_HELP: &str = concat!(
"Allow file system read access. Optionally specify allowed paths.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-read\n",
" --allow-read=\"/etc,/var/log.txt\""
);
static ALLOW_WRITE_HELP: &str = concat!(
"Allow file system write access. Optionally specify allowed paths.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-write\n",
" --allow-write=\"/etc,/var/log.txt\""
);
static ALLOW_NET_HELP: &str = concat!(
"Allow network access. Optionally specify allowed IP addresses and host names, with ports as necessary.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-net\n",
" --allow-net=\"localhost:8080,deno.land\""
);
static ALLOW_ENV_HELP: &str = concat!(
"Allow access to system environment information. Optionally specify accessible environment variables.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-env\n",
" --allow-env=\"PORT,HOME,PATH\""
);
static ALLOW_SYS_HELP: &str = concat!(
"Allow access to OS information. Optionally allow specific APIs by function name.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-sys\n",
" --allow-sys=\"systemMemoryInfo,osRelease\""
);
static ALLOW_RUN_HELP: &str = concat!(
"Allow running subprocesses. Optionally specify allowed runnable program names.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-run\n",
" --allow-run=\"whoami,ps\""
);
static ALLOW_FFI_HELP: &str = concat!(
"(Unstable) Allow loading dynamic libraries. Optionally specify allowed directories or files.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n",
"Examples:\n",
" --allow-ffi\n",
" --allow-ffi=\"./libfoo.so\""
);
static ALLOW_HRTIME_HELP: &str = concat!(
"Allow high-resolution time measurement. Note: this can enable timing attacks and fingerprinting.\n",
"Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n"
);
static ALLOW_ALL_HELP: &str = concat!(
"Allow all permissions. Learn more about permissions in Deno:\n",
"https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/basics/permissions\n"
);
fn permission_args(app: Command) -> Command {
app
.arg(
Arg::new("allow-read")
.long("allow-read")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("PATH")
.help(ALLOW_READ_HELP)
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("allow-write")
.long("allow-write")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("PATH")
.help(ALLOW_WRITE_HELP)
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("allow-net")
.long("allow-net")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("IP_OR_HOSTNAME")
.help(ALLOW_NET_HELP)
.value_parser(flags_allow_net::validator),
)
.arg(unsafely_ignore_certificate_errors_arg())
.arg(
Arg::new("allow-env")
.long("allow-env")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("VARIABLE_NAME")
.help(ALLOW_ENV_HELP)
.value_parser(|key: &str| {
if key.is_empty() || key.contains(&['=', '\0'] as &[char]) {
return Err(format!("invalid key \"{key}\""));
}
Ok(if cfg!(windows) {
key.to_uppercase()
} else {
key.to_string()
})
}),
)
.arg(
Arg::new("allow-sys")
.long("allow-sys")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("API_NAME")
.help(ALLOW_SYS_HELP)
.value_parser(|key: &str| parse_sys_kind(key).map(ToString::to_string)),
)
.arg(
Arg::new("allow-run")
.long("allow-run")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("PROGRAM_NAME")
.help(ALLOW_RUN_HELP),
)
.arg(
Arg::new("allow-ffi")
.long("allow-ffi")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("PATH")
.help(ALLOW_FFI_HELP)
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::AnyPath),
)
.arg(
Arg::new("allow-hrtime")
.long("allow-hrtime")
.action(ArgAction::SetTrue)
.help(ALLOW_HRTIME_HELP),
)
.arg(
Arg::new("allow-all")
.short('A')
.long("allow-all")
.action(ArgAction::SetTrue)
.help(ALLOW_ALL_HELP),
)
.arg(
Arg::new("prompt")
.long("prompt")
.action(ArgAction::SetTrue)
.hide(true)
.help(
"deprecated: Fallback to prompt if required permission wasn't passed",
),
)
.arg(
Arg::new("no-prompt")
.long("no-prompt")
.action(ArgAction::SetTrue)
.help("Always throw if required permission wasn't passed"),
)
}
fn runtime_args(
app: Command,
include_perms: bool,
include_inspector: bool,
) -> Command {
let app = compile_args(app);
let app = if include_perms {
permission_args(app)
} else {
app
};
let app = if include_inspector {
inspect_args(app)
} else {
app
};
app
.arg(cached_only_arg())
.arg(location_arg())
.arg(v8_flags_arg())
.arg(seed_arg())
.arg(enable_testing_features_arg())
}
fn inspect_args(app: Command) -> Command {
app
.arg(
Arg::new("inspect")
.long("inspect")
.value_name("HOST_AND_PORT")
.help("Activate inspector on host:port (default: 127.0.0.1:9229)")
.num_args(0..=1)
.require_equals(true)
.value_parser(value_parser!(SocketAddr)),
)
.arg(
Arg::new("inspect-brk")
.long("inspect-brk")
.value_name("HOST_AND_PORT")
.help(
"Activate inspector on host:port, wait for debugger to connect and break at the start of user script",
)
.num_args(0..=1)
.require_equals(true)
.value_parser(value_parser!(SocketAddr)),
)
.arg(
Arg::new("inspect-wait")
.long("inspect-wait")
.value_name("HOST_AND_PORT")
.help(
"Activate inspector on host:port and wait for debugger to connect before running user code",
)
.num_args(0..=1)
.require_equals(true)
.value_parser(value_parser!(SocketAddr)),
)
}
static IMPORT_MAP_HELP: &str = concat!(
"Load import map file from local file or remote URL.
Docs: https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/linking_to_external_code/import_maps
Specification: https://wicg.github.io/import-maps/
Examples: https://github.com/WICG/import-maps#the-import-map",
);
fn import_map_arg() -> Arg {
Arg::new("import-map")
.long("import-map")
.alias("importmap")
.value_name("FILE")
.help("Load import map file")
.long_help(IMPORT_MAP_HELP)
.value_hint(ValueHint::FilePath)
}
fn reload_arg() -> Arg {
Arg::new("reload")
.short('r')
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.long("reload")
.help("Reload source code cache (recompile TypeScript)")
.value_name("CACHE_BLOCKLIST")
.long_help(
"Reload source code cache (recompile TypeScript)
--reload
Reload everything
--reload=https://deno.land/std
Reload only standard modules
--reload=https://deno.land/std/fs/utils.ts,https://deno.land/std/fmt/colors.ts
Reloads specific modules
--reload=npm:
Reload all npm modules
--reload=npm:chalk
Reload specific npm module",
)
.value_hint(ValueHint::FilePath)
.value_parser(reload_arg_validate)
}
fn ca_file_arg() -> Arg {
Arg::new("cert")
.long("cert")
.value_name("FILE")
.help("Load certificate authority from PEM encoded file")
.value_hint(ValueHint::FilePath)
}
fn cached_only_arg() -> Arg {
Arg::new("cached-only")
.long("cached-only")
.action(ArgAction::SetTrue)
.help("Require that remote dependencies are already cached")
}
/// Used for subcommands that operate on executable scripts only.
/// `deno fmt` has its own `--ext` arg because its possible values differ.
/// If --ext is not provided and the script doesn't have a file extension,
/// deno_graph::parse_module() defaults to js.
fn executable_ext_arg() -> Arg {
Arg::new("ext")
.long("ext")
.help("Set content type of the supplied file")
.value_parser(["ts", "tsx", "js", "jsx"])
}
fn location_arg() -> Arg {
Arg::new("location")
.long("location")
.value_name("HREF")
.value_parser(|href: &str| -> Result<Url, String> {
let url = Url::parse(href);
if url.is_err() {
return Err("Failed to parse URL".to_string());
}
let mut url = url.unwrap();
if !["http", "https"].contains(&url.scheme()) {
return Err("Expected protocol \"http\" or \"https\"".to_string());
}
url.set_username("").unwrap();
url.set_password(None).unwrap();
Ok(url)
})
.help("Value of 'globalThis.location' used by some web APIs")
.value_hint(ValueHint::Url)
}
fn enable_testing_features_arg() -> Arg {
Arg::new("enable-testing-features-do-not-use")
.long("enable-testing-features-do-not-use")
.help("INTERNAL: Enable internal features used during integration testing")
.action(ArgAction::SetTrue)
.hide(true)
}
fn v8_flags_arg() -> Arg {
Arg::new("v8-flags")
.long("v8-flags")
.num_args(..)
.use_value_delimiter(true)
.require_equals(true)
.help("Set V8 command line options")
.long_help("To see a list of all available flags use --v8-flags=--help.
Any flags set with this flag are appended after the DENO_V8_FLAGS environmental variable")
}
fn seed_arg() -> Arg {
Arg::new("seed")
.long("seed")
.value_name("NUMBER")
.help("Set the random number generator seed")
.value_parser(value_parser!(u64))
}
fn watch_arg(takes_files: bool) -> Arg {
let arg = Arg::new("watch")
.long("watch")
.help("Watch for file changes and restart automatically");
if takes_files {
arg
.value_name("FILES")
.num_args(0..)
.value_parser(value_parser!(PathBuf))
.use_value_delimiter(true)
.require_equals(true)
.long_help(
"Watch for file changes and restart process automatically.
Local files from entry point module graph are watched by default.
Additional paths might be watched by passing them as arguments to this flag.",
)
.value_hint(ValueHint::AnyPath)
} else {
arg.action(ArgAction::SetTrue).long_help(
"Watch for file changes and restart process automatically.
Only local files from entry point module graph are watched.",
)
}
}
fn no_clear_screen_arg() -> Arg {
Arg::new("no-clear-screen")
.requires("watch")
.long("no-clear-screen")
.action(ArgAction::SetTrue)
.help("Do not clear terminal screen when under watch mode")
}
fn no_check_arg() -> Arg {
Arg::new("no-check")
.num_args(0..=1)
.require_equals(true)
.value_name("NO_CHECK_TYPE")
.long("no-check")
.help("Skip type-checking modules")
.long_help(
"Skip type-checking. If the value of '--no-check=remote' is supplied,
diagnostic errors from remote modules will be ignored.",
)
}
fn check_arg(checks_local_by_default: bool) -> Arg {
let arg = Arg::new("check")
.conflicts_with("no-check")
.long("check")
.num_args(0..=1)
.require_equals(true)
.value_name("CHECK_TYPE")
.help("Type-check modules");
if checks_local_by_default {
arg.long_help(
"Set type-checking behavior. This subcommand type-checks local modules by
default, so adding --check is redundant.
If the value of '--check=all' is supplied, diagnostic errors from remote modules
will be included.
Alternatively, the 'deno check' subcommand can be used.",
)
} else {
arg.long_help(
"Enable type-checking. This subcommand does not type-check by default.
If the value of '--check=all' is supplied, diagnostic errors from remote modules
will be included.
Alternatively, the 'deno check' subcommand can be used.",
)
}
}
fn script_arg() -> Arg {
Arg::new("script_arg")
.num_args(0..)
.action(ArgAction::Append)
// NOTE: these defaults are provided
// so `deno run --v8-flags=--help` works
// without specifying file to run.
.default_value_ifs([
("v8-flags", "--help", Some("_")),
("v8-flags", "-help", Some("_")),
])
.help("Script arg")
.value_name("SCRIPT_ARG")
.value_hint(ValueHint::FilePath)
}
fn lock_arg() -> Arg {
Arg::new("lock")
.long("lock")
.value_name("FILE")
.help("Check the specified lock file.
If value is not provided, defaults to \"deno.lock\" in the current working directory.")
.num_args(0..=1)
.value_parser(value_parser!(PathBuf))
.value_hint(ValueHint::FilePath)
}
fn lock_write_arg() -> Arg {
Arg::new("lock-write")
.action(ArgAction::SetTrue)
.long("lock-write")
.help("Force overwriting the lock file.")
.conflicts_with("no-lock")
}
fn no_lock_arg() -> Arg {
Arg::new("no-lock")
.long("no-lock")
.action(ArgAction::SetTrue)
.help("Disable auto discovery of the lock file.")
.conflicts_with("lock")
}
static CONFIG_HELP: &str = concat!(
"The configuration file can be used to configure different aspects of
deno including TypeScript, linting, and code formatting. Typically the
configuration file will be called `deno.json` or `deno.jsonc` and
automatically detected; in that case this flag is not necessary.
See https://deno.land/manual@v",
env!("CARGO_PKG_VERSION"),
"/getting_started/configuration_file"
);
fn config_arg() -> Arg {
Arg::new("config")
.short('c')
.long("config")
.value_name("FILE")
.help("Specify the configuration file")
.long_help(CONFIG_HELP)
.value_hint(ValueHint::FilePath)
}
fn no_config_arg() -> Arg {
Arg::new("no-config")
.long("no-config")
.action(ArgAction::SetTrue)
.help("Disable automatic loading of the configuration file.")
.conflicts_with("config")
}
fn no_remote_arg() -> Arg {
Arg::new("no-remote")
.long("no-remote")
.action(ArgAction::SetTrue)
.help("Do not resolve remote modules")
}
fn no_npm_arg() -> Arg {
Arg::new("no-npm")
.long("no-npm")
.action(ArgAction::SetTrue)
.help("Do not resolve npm modules")
}
fn node_modules_dir_arg() -> Arg {
Arg::new("node-modules-dir")
.long("node-modules-dir")
.num_args(0..=1)
.value_parser(value_parser!(bool))
.default_missing_value("true")
.require_equals(true)
.help("Enables or disables the use of a local node_modules folder for npm packages")
}
fn unsafely_ignore_certificate_errors_arg() -> Arg {
Arg::new("unsafely-ignore-certificate-errors")
.long("unsafely-ignore-certificate-errors")
.num_args(0..)
.use_value_delimiter(true)
.require_equals(true)
.value_name("HOSTNAMES")
.help("DANGER: Disables verification of TLS certificates")
.value_parser(flags_allow_net::validator)
}
fn bench_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.type_check_mode = TypeCheckMode::Local;
runtime_args_parse(flags, matches, true, false);
// NOTE: `deno bench` always uses `--no-prompt`, tests shouldn't ever do
// interactive prompts, unless done by user code
flags.no_prompt = true;
let json = matches.get_flag("json");
let ignore = match matches.remove_many::<PathBuf>("ignore") {
Some(f) => f.collect(),
None => vec![],
};
let filter = matches.remove_one::<String>("filter");
if matches.contains_id("script_arg") {
flags
.argv
.extend(matches.remove_many::<String>("script_arg").unwrap());
}
let include = if let Some(files) = matches.remove_many::<PathBuf>("files") {
files.collect()
} else {
Vec::new()
};
let no_run = matches.get_flag("no-run");
watch_arg_parse(flags, matches, false);
flags.subcommand = DenoSubcommand::Bench(BenchFlags {
files: FileFlags { include, ignore },
filter,
json,
no_run,
});
}
fn bundle_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.type_check_mode = TypeCheckMode::Local;
compile_args_parse(flags, matches);
let source_file = matches.remove_one::<String>("source_file").unwrap();
let out_file =
if let Some(out_file) = matches.remove_one::<PathBuf>("out_file") {
flags.allow_write = Some(vec![]);
Some(out_file)
} else {
None
};
watch_arg_parse(flags, matches, false);
ext_arg_parse(flags, matches);
flags.subcommand = DenoSubcommand::Bundle(BundleFlags {
source_file,
out_file,
});
}
fn cache_parse(flags: &mut Flags, matches: &mut ArgMatches) {
compile_args_parse(flags, matches);
let files = matches.remove_many::<String>("file").unwrap().collect();
flags.subcommand = DenoSubcommand::Cache(CacheFlags { files });
}
fn check_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.type_check_mode = TypeCheckMode::Local;
compile_args_without_check_parse(flags, matches);
let files = matches.remove_many::<String>("file").unwrap().collect();
if matches.get_flag("all") || matches.get_flag("remote") {
flags.type_check_mode = TypeCheckMode::All;
}
flags.subcommand = DenoSubcommand::Check(CheckFlags { files });
}
fn compile_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.type_check_mode = TypeCheckMode::Local;
runtime_args_parse(flags, matches, true, false);
let mut script = matches.remove_many::<String>("script_arg").unwrap();
let source_file = script.next().unwrap();
let args = script.collect();
let output = matches.remove_one::<PathBuf>("output");
let target = matches.remove_one::<String>("target");
let include = match matches.remove_many::<String>("include") {
Some(f) => f.collect(),
None => vec![],
};
ext_arg_parse(flags, matches);
flags.subcommand = DenoSubcommand::Compile(CompileFlags {
source_file,
output,
args,
target,
include,
});
}
fn completions_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
mut app: Command,
) {
use clap_complete::generate;
use clap_complete::shells::Bash;
use clap_complete::shells::Fish;
use clap_complete::shells::PowerShell;
use clap_complete::shells::Zsh;
use clap_complete_fig::Fig;
let mut buf: Vec<u8> = vec![];
let name = "deno";
match matches.get_one::<String>("shell").unwrap().as_str() {
"bash" => generate(Bash, &mut app, name, &mut buf),
"fish" => generate(Fish, &mut app, name, &mut buf),
"powershell" => generate(PowerShell, &mut app, name, &mut buf),
"zsh" => generate(Zsh, &mut app, name, &mut buf),
"fig" => generate(Fig, &mut app, name, &mut buf),
_ => unreachable!(),
}
flags.subcommand = DenoSubcommand::Completions(CompletionsFlags {
buf: buf.into_boxed_slice(),
});
}
fn coverage_parse(flags: &mut Flags, matches: &mut ArgMatches) {
let files = match matches.remove_many::<PathBuf>("files") {
Some(f) => f.collect(),
None => vec![],
};
let ignore = match matches.remove_many::<PathBuf>("ignore") {
Some(f) => f.collect(),
None => vec![],
};
let include = match matches.remove_many::<String>("include") {
Some(f) => f.collect(),
None => vec![],
};
let exclude = match matches.remove_many::<String>("exclude") {
Some(f) => f.collect(),
None => vec![],
};
let lcov = matches.get_flag("lcov");
let output = matches.remove_one::<PathBuf>("output");
flags.subcommand = DenoSubcommand::Coverage(CoverageFlags {
files: FileFlags {
include: files,
ignore,
},
output,
include,
exclude,
lcov,
});
}
fn doc_parse(flags: &mut Flags, matches: &mut ArgMatches) {
import_map_arg_parse(flags, matches);
reload_arg_parse(flags, matches);
lock_arg_parse(flags, matches);
no_lock_arg_parse(flags, matches);
no_npm_arg_parse(flags, matches);
no_remote_arg_parse(flags, matches);
let source_file = matches
.remove_one::<String>("source_file")
.map(|value| {
if value == "--builtin" {
DocSourceFileFlag::Builtin
} else {
DocSourceFileFlag::Path(value)
}
})
.unwrap_or_default();
let private = matches.get_flag("private");
let json = matches.get_flag("json");
let filter = matches.remove_one::<String>("filter");
flags.subcommand = DenoSubcommand::Doc(DocFlags {
source_file,
json,
filter,
private,
});
}
fn eval_parse(flags: &mut Flags, matches: &mut ArgMatches) {
runtime_args_parse(flags, matches, false, true);
flags.allow_net = Some(vec![]);
flags.allow_env = Some(vec![]);
flags.allow_run = Some(vec![]);
flags.allow_read = Some(vec![]);
flags.allow_sys = Some(vec![]);
flags.allow_write = Some(vec![]);
flags.allow_ffi = Some(vec![]);
flags.allow_hrtime = true;
ext_arg_parse(flags, matches);
// TODO(@satyarohith): remove this flag in 2.0.
let as_typescript = matches.get_flag("ts");
if as_typescript {
eprintln!(
"{}",
crate::colors::yellow(
"Warning: --ts/-T flag is deprecated. Use --ext=ts instead."
),
);
flags.ext = Some("ts".to_string());
}
let print = matches.get_flag("print");
let mut code_args = matches.remove_many::<String>("code_arg").unwrap();
let code = code_args.next().unwrap();
flags.argv.extend(code_args);
flags.subcommand = DenoSubcommand::Eval(EvalFlags { print, code });
}
fn fmt_parse(flags: &mut Flags, matches: &mut ArgMatches) {
config_args_parse(flags, matches);
watch_arg_parse(flags, matches, false);
ext_arg_parse(flags, matches);
let include = match matches.remove_many::<PathBuf>("files") {
Some(f) => f.collect(),
None => vec![],
};
let ignore = match matches.remove_many::<PathBuf>("ignore") {
Some(f) => f.collect(),
None => vec![],
};
let use_tabs = matches.remove_one::<bool>("use-tabs");
let line_width = matches.remove_one::<NonZeroU32>("line-width");
let indent_width = matches.remove_one::<NonZeroU8>("indent-width");
let single_quote = matches.remove_one::<bool>("single-quote");
let prose_wrap = matches.remove_one::<String>("prose-wrap");
let no_semicolons = matches.remove_one::<bool>("no-semicolons");
flags.subcommand = DenoSubcommand::Fmt(FmtFlags {
check: matches.get_flag("check"),
files: FileFlags { include, ignore },
use_tabs,
line_width,
indent_width,
single_quote,
prose_wrap,
no_semicolons,
});
}
fn init_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.subcommand = DenoSubcommand::Init(InitFlags {
dir: matches.remove_one::<String>("dir"),
});
}
fn info_parse(flags: &mut Flags, matches: &mut ArgMatches) {
reload_arg_parse(flags, matches);
config_args_parse(flags, matches);
import_map_arg_parse(flags, matches);
location_arg_parse(flags, matches);
ca_file_arg_parse(flags, matches);
node_modules_dir_arg_parse(flags, matches);
lock_arg_parse(flags, matches);
no_lock_arg_parse(flags, matches);
no_remote_arg_parse(flags, matches);
no_npm_arg_parse(flags, matches);
let json = matches.get_flag("json");
flags.subcommand = DenoSubcommand::Info(InfoFlags {
file: matches.remove_one::<String>("file"),
json,
});
}
fn install_parse(flags: &mut Flags, matches: &mut ArgMatches) {
runtime_args_parse(flags, matches, true, true);
let root = matches.remove_one::<PathBuf>("root");
let force = matches.get_flag("force");
let name = matches.remove_one::<String>("name");
let mut cmd_values = matches.remove_many::<String>("cmd").unwrap();
let module_url = cmd_values.next().unwrap();
let args = cmd_values.collect();
flags.subcommand = DenoSubcommand::Install(InstallFlags {
name,
module_url,
args,
root,
force,
});
}
fn uninstall_parse(flags: &mut Flags, matches: &mut ArgMatches) {
let root = matches.remove_one::<PathBuf>("root");
let name = matches.remove_one::<String>("name").unwrap();
flags.subcommand = DenoSubcommand::Uninstall(UninstallFlags { name, root });
}
fn lsp_parse(flags: &mut Flags, _matches: &mut ArgMatches) {
flags.subcommand = DenoSubcommand::Lsp;
}
fn lint_parse(flags: &mut Flags, matches: &mut ArgMatches) {
config_args_parse(flags, matches);
watch_arg_parse(flags, matches, false);
let files = match matches.remove_many::<PathBuf>("files") {
Some(f) => f.collect(),
None => vec![],
};
let ignore = match matches.remove_many::<PathBuf>("ignore") {
Some(f) => f.collect(),
None => vec![],
};
let rules = matches.get_flag("rules");
let maybe_rules_tags = matches
.remove_many::<String>("rules-tags")
.map(|f| f.collect());
let maybe_rules_include = matches
.remove_many::<String>("rules-include")
.map(|f| f.collect());
let maybe_rules_exclude = matches
.remove_many::<String>("rules-exclude")
.map(|f| f.collect());
let json = matches.get_flag("json");
let compact = matches.get_flag("compact");
flags.subcommand = DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: files,
ignore,
},
rules,
maybe_rules_tags,
maybe_rules_include,
maybe_rules_exclude,
json,
compact,
});
}
fn repl_parse(flags: &mut Flags, matches: &mut ArgMatches) {
runtime_args_parse(flags, matches, true, true);
unsafely_ignore_certificate_errors_parse(flags, matches);
let eval_files = matches
.remove_many::<String>("eval-file")
.map(|values| values.collect());
handle_repl_flags(
flags,
ReplFlags {
eval_files,
eval: matches.remove_one::<String>("eval"),
is_default_command: false,
},
);
}
fn run_parse(flags: &mut Flags, matches: &mut ArgMatches) {
runtime_args_parse(flags, matches, true, true);
let mut script_arg = matches.remove_many::<String>("script_arg").unwrap();
let script = script_arg.next().unwrap();
flags.argv.extend(script_arg);
ext_arg_parse(flags, matches);
watch_arg_parse(flags, matches, true);
flags.subcommand = DenoSubcommand::Run(RunFlags { script });
}
fn task_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.config_flag = matches
.remove_one::<String>("config")
.map(ConfigFlag::Path)
.unwrap_or(ConfigFlag::Discover);
let mut task_flags = TaskFlags {
cwd: matches.remove_one::<String>("cwd"),
task: None,
};
if let Some((task, mut matches)) = matches.remove_subcommand() {
task_flags.task = Some(task);
flags.argv.extend(
matches
.remove_many::<std::ffi::OsString>("")
.into_iter()
.flatten()
.filter_map(|arg| arg.into_string().ok()),
);
}
flags.subcommand = DenoSubcommand::Task(task_flags);
}
fn test_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.type_check_mode = TypeCheckMode::Local;
runtime_args_parse(flags, matches, true, true);
// NOTE: `deno test` always uses `--no-prompt`, tests shouldn't ever do
// interactive prompts, unless done by user code
flags.no_prompt = true;
let ignore = match matches.remove_many::<PathBuf>("ignore") {
Some(f) => f.collect(),
None => vec![],
};
let no_run = matches.get_flag("no-run");
let trace_ops = matches.get_flag("trace-ops");
let doc = matches.get_flag("doc");
let allow_none = matches.get_flag("allow-none");
let filter = matches.remove_one::<String>("filter");
let fail_fast = if matches.contains_id("fail-fast") {
Some(
matches
.remove_one::<NonZeroUsize>("fail-fast")
.unwrap_or_else(|| NonZeroUsize::new(1).unwrap()),
)
} else {
None
};
let shuffle = if matches.contains_id("shuffle") {
Some(
matches
.remove_one::<u64>("shuffle")
.unwrap_or_else(rand::random),
)
} else {
None
};
if let Some(script_arg) = matches.remove_many::<String>("script_arg") {
flags.argv.extend(script_arg);
}
let concurrent_jobs = if matches.get_flag("parallel") {
if let Ok(value) = env::var("DENO_JOBS") {
value.parse::<NonZeroUsize>().ok()
} else {
std::thread::available_parallelism().ok()
}
} else if matches.contains_id("jobs") {
// We can't change this to use the log crate because its not configured
// yet at this point since the flags haven't been parsed. This flag is
// deprecated though so it's not worth changing the code to use the log
// crate here and this is only done for testing anyway.
eprintln!(
"{}",
crate::colors::yellow("Warning: --jobs flag is deprecated. Use the --parallel flag with possibly the 'DENO_JOBS' environment variable."),
);
if let Some(value) = matches.remove_one::<NonZeroUsize>("jobs") {
Some(value)
} else {
std::thread::available_parallelism().ok()
}
} else {
None
};
let include = if let Some(files) = matches.remove_many::<PathBuf>("files") {
files.collect()
} else {
Vec::new()
};
flags.coverage_dir = matches.remove_one::<String>("coverage");
watch_arg_parse(flags, matches, false);
flags.subcommand = DenoSubcommand::Test(TestFlags {
no_run,
doc,
fail_fast,
files: FileFlags { include, ignore },
filter,
shuffle,
allow_none,
concurrent_jobs,
trace_ops,
});
}
fn types_parse(flags: &mut Flags, _matches: &mut ArgMatches) {
flags.subcommand = DenoSubcommand::Types;
}
fn upgrade_parse(flags: &mut Flags, matches: &mut ArgMatches) {
ca_file_arg_parse(flags, matches);
let dry_run = matches.get_flag("dry-run");
let force = matches.get_flag("force");
let canary = matches.get_flag("canary");
let version = matches.remove_one::<String>("version");
let output = matches.remove_one::<PathBuf>("output");
flags.subcommand = DenoSubcommand::Upgrade(UpgradeFlags {
dry_run,
force,
canary,
version,
output,
});
}
fn vendor_parse(flags: &mut Flags, matches: &mut ArgMatches) {
ca_file_arg_parse(flags, matches);
config_args_parse(flags, matches);
import_map_arg_parse(flags, matches);
lock_arg_parse(flags, matches);
node_modules_dir_arg_parse(flags, matches);
reload_arg_parse(flags, matches);
flags.subcommand = DenoSubcommand::Vendor(VendorFlags {
specifiers: matches
.remove_many::<String>("specifiers")
.map(|p| p.collect())
.unwrap_or_default(),
output_path: matches.remove_one::<PathBuf>("output"),
force: matches.get_flag("force"),
});
}
fn compile_args_parse(flags: &mut Flags, matches: &mut ArgMatches) {
compile_args_without_check_parse(flags, matches);
no_check_arg_parse(flags, matches);
check_arg_parse(flags, matches);
}
fn compile_args_without_check_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
) {
import_map_arg_parse(flags, matches);
no_remote_arg_parse(flags, matches);
no_npm_arg_parse(flags, matches);
node_modules_dir_arg_parse(flags, matches);
config_args_parse(flags, matches);
reload_arg_parse(flags, matches);
lock_args_parse(flags, matches);
ca_file_arg_parse(flags, matches);
}
fn permission_args_parse(flags: &mut Flags, matches: &mut ArgMatches) {
unsafely_ignore_certificate_errors_parse(flags, matches);
if let Some(read_wl) = matches.remove_many::<PathBuf>("allow-read") {
flags.allow_read = Some(read_wl.collect());
}
if let Some(write_wl) = matches.remove_many::<PathBuf>("allow-write") {
flags.allow_write = Some(write_wl.collect());
}
if let Some(net_wl) = matches.remove_many::<String>("allow-net") {
let net_allowlist = flags_allow_net::parse(net_wl.collect()).unwrap();
flags.allow_net = Some(net_allowlist);
}
if let Some(env_wl) = matches.remove_many::<String>("allow-env") {
flags.allow_env = Some(env_wl.collect());
debug!("env allowlist: {:#?}", &flags.allow_env);
}
if let Some(run_wl) = matches.remove_many::<String>("allow-run") {
flags.allow_run = Some(run_wl.collect());
debug!("run allowlist: {:#?}", &flags.allow_run);
}
if let Some(sys_wl) = matches.remove_many::<String>("allow-sys") {
flags.allow_sys = Some(sys_wl.collect());
debug!("sys info allowlist: {:#?}", &flags.allow_sys);
}
if let Some(ffi_wl) = matches.remove_many::<PathBuf>("allow-ffi") {
flags.allow_ffi = Some(ffi_wl.collect());
debug!("ffi allowlist: {:#?}", &flags.allow_ffi);
}
if matches.get_flag("allow-hrtime") {
flags.allow_hrtime = true;
}
if matches.get_flag("allow-all") {
flags.allow_all = true;
flags.allow_read = Some(vec![]);
flags.allow_env = Some(vec![]);
flags.allow_net = Some(vec![]);
flags.allow_run = Some(vec![]);
flags.allow_write = Some(vec![]);
flags.allow_sys = Some(vec![]);
flags.allow_ffi = Some(vec![]);
flags.allow_hrtime = true;
}
if matches.get_flag("no-prompt") {
flags.no_prompt = true;
}
}
fn unsafely_ignore_certificate_errors_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
) {
if let Some(ic_wl) =
matches.remove_many::<String>("unsafely-ignore-certificate-errors")
{
let ic_allowlist = flags_allow_net::parse(ic_wl.collect()).unwrap();
flags.unsafely_ignore_certificate_errors = Some(ic_allowlist);
}
}
fn runtime_args_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
include_perms: bool,
include_inspector: bool,
) {
compile_args_parse(flags, matches);
cached_only_arg_parse(flags, matches);
if include_perms {
permission_args_parse(flags, matches);
}
if include_inspector {
inspect_arg_parse(flags, matches);
}
location_arg_parse(flags, matches);
v8_flags_arg_parse(flags, matches);
seed_arg_parse(flags, matches);
enable_testing_features_arg_parse(flags, matches);
}
fn inspect_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
let default = || "127.0.0.1:9229".parse::<SocketAddr>().unwrap();
flags.inspect = if matches.contains_id("inspect") {
Some(
matches
.remove_one::<SocketAddr>("inspect")
.unwrap_or_else(default),
)
} else {
None
};
flags.inspect_brk = if matches.contains_id("inspect-brk") {
Some(
matches
.remove_one::<SocketAddr>("inspect-brk")
.unwrap_or_else(default),
)
} else {
None
};
flags.inspect_wait = if matches.contains_id("inspect-wait") {
Some(
matches
.remove_one::<SocketAddr>("inspect-wait")
.unwrap_or_else(default),
)
} else {
None
};
}
fn import_map_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.import_map_path = matches.remove_one::<String>("import-map");
}
fn reload_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if let Some(cache_bl) = matches.remove_many::<String>("reload") {
let raw_cache_blocklist: Vec<String> = cache_bl.collect();
if raw_cache_blocklist.is_empty() {
flags.reload = true;
} else {
flags.cache_blocklist = resolve_urls(raw_cache_blocklist);
debug!("cache blocklist: {:#?}", &flags.cache_blocklist);
flags.reload = false;
}
}
}
fn ca_file_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.ca_data = matches.remove_one::<String>("cert").map(CaData::File);
}
fn enable_testing_features_arg_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
) {
if matches.get_flag("enable-testing-features-do-not-use") {
flags.enable_testing_features = true
}
}
fn cached_only_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if matches.get_flag("cached-only") {
flags.cached_only = true;
}
}
fn ext_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.ext = matches.remove_one::<String>("ext");
}
fn location_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.location = matches.remove_one::<Url>("location");
}
fn v8_flags_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if let Some(v8_flags) = matches.remove_many::<String>("v8-flags") {
flags.v8_flags = v8_flags.collect();
}
}
fn seed_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if let Some(seed) = matches.remove_one::<u64>("seed") {
flags.seed = Some(seed);
flags.v8_flags.push(format!("--random-seed={seed}"));
}
}
fn no_check_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if let Some(cache_type) = matches.get_one::<String>("no-check") {
match cache_type.as_str() {
"remote" => flags.type_check_mode = TypeCheckMode::Local,
_ => debug!(
"invalid value for 'no-check' of '{}' using default",
cache_type
),
}
} else if matches.contains_id("no-check") {
flags.type_check_mode = TypeCheckMode::None;
}
}
fn check_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if let Some(cache_type) = matches.get_one::<String>("check") {
match cache_type.as_str() {
"all" => flags.type_check_mode = TypeCheckMode::All,
_ => debug!(
"invalid value for 'check' of '{}' using default",
cache_type
),
}
} else if matches.contains_id("check") {
flags.type_check_mode = TypeCheckMode::Local;
}
}
fn lock_args_parse(flags: &mut Flags, matches: &mut ArgMatches) {
lock_arg_parse(flags, matches);
no_lock_arg_parse(flags, matches);
if matches.get_flag("lock-write") {
flags.lock_write = true;
}
}
fn lock_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if matches.contains_id("lock") {
let lockfile = matches
.remove_one::<PathBuf>("lock")
.unwrap_or_else(|| PathBuf::from("./deno.lock"));
flags.lock = Some(lockfile);
}
}
fn no_lock_arg_parse(flags: &mut Flags, matches: &ArgMatches) {
if matches.get_flag("no-lock") {
flags.no_lock = true;
}
}
fn config_args_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.config_flag = if matches.get_flag("no-config") {
ConfigFlag::Disabled
} else if let Some(config) = matches.remove_one::<String>("config") {
ConfigFlag::Path(config)
} else {
ConfigFlag::Discover
};
}
fn no_remote_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if matches.get_flag("no-remote") {
flags.no_remote = true;
}
}
fn no_npm_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
if matches.get_flag("no-npm") {
flags.no_npm = true;
}
}
fn node_modules_dir_arg_parse(flags: &mut Flags, matches: &mut ArgMatches) {
flags.node_modules_dir = matches.remove_one::<bool>("node-modules-dir");
}
fn reload_arg_validate(urlstr: &str) -> Result<String, String> {
if urlstr.is_empty() {
return Err(String::from("Missing url. Check for extra commas."));
}
match Url::from_str(urlstr) {
Ok(_) => Ok(urlstr.to_string()),
Err(e) => Err(e.to_string()),
}
}
fn watch_arg_parse(
flags: &mut Flags,
matches: &mut ArgMatches,
allow_extra: bool,
) {
if allow_extra {
if let Some(f) = matches.remove_many::<PathBuf>("watch") {
flags.watch = Some(f.collect());
}
} else if matches.get_flag("watch") {
flags.watch = Some(vec![]);
}
if matches.get_flag("no-clear-screen") {
flags.no_clear_screen = true;
}
}
// TODO(ry) move this to utility module and add test.
/// Strips fragment part of URL. Panics on bad URL.
pub fn resolve_urls(urls: Vec<String>) -> Vec<String> {
let mut out: Vec<String> = vec![];
for urlstr in urls.iter() {
if let Ok(mut url) = Url::from_str(urlstr) {
url.set_fragment(None);
let mut full_url = String::from(url.as_str());
if full_url.len() > 1 && full_url.ends_with('/') {
full_url.pop();
}
out.push(full_url);
} else {
panic!("Bad Url: {urlstr}");
}
}
out
}
#[cfg(test)]
mod tests {
use super::*;
use pretty_assertions::assert_eq;
/// Creates vector of strings, Vec<String>
macro_rules! svec {
($($x:expr),* $(,)?) => (vec![$($x.to_string()),*]);
}
#[test]
fn global_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "--unstable", "--log-level", "debug", "--quiet", "run", "script.ts"]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
unstable: true,
log_level: Some(Level::Error),
..Flags::default()
}
);
#[rustfmt::skip]
let r2 = flags_from_vec(svec!["deno", "run", "--unstable", "--log-level", "debug", "--quiet", "script.ts"]);
let flags2 = r2.unwrap();
assert_eq!(flags2, flags);
}
#[test]
fn upgrade() {
let r = flags_from_vec(svec!["deno", "upgrade", "--dry-run", "--force"]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Upgrade(UpgradeFlags {
force: true,
dry_run: true,
canary: false,
version: None,
output: None,
}),
..Flags::default()
}
);
}
#[test]
fn version() {
let r = flags_from_vec(svec!["deno", "--version"]);
assert_eq!(
r.unwrap_err().kind(),
clap::error::ErrorKind::DisplayVersion
);
let r = flags_from_vec(svec!["deno", "-V"]);
assert_eq!(
r.unwrap_err().kind(),
clap::error::ErrorKind::DisplayVersion
);
}
#[test]
fn run_reload() {
let r = flags_from_vec(svec!["deno", "run", "-r", "script.ts"]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
reload: true,
..Flags::default()
}
);
}
#[test]
fn run_watch() {
let r = flags_from_vec(svec!["deno", "run", "--watch", "script.ts"]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
watch: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn run_watch_with_external() {
let r =
flags_from_vec(svec!["deno", "run", "--watch=file1,file2", "script.ts"]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
watch: Some(vec![PathBuf::from("file1"), PathBuf::from("file2")]),
..Flags::default()
}
);
}
#[test]
fn run_watch_with_no_clear_screen() {
let r = flags_from_vec(svec![
"deno",
"run",
"--watch",
"--no-clear-screen",
"script.ts"
]);
let flags = r.unwrap();
assert_eq!(
flags,
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
watch: Some(vec![]),
no_clear_screen: true,
..Flags::default()
}
);
}
#[test]
fn run_reload_allow_write() {
let r =
flags_from_vec(svec!["deno", "run", "-r", "--allow-write", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
reload: true,
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_write: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn run_v8_flags() {
let r = flags_from_vec(svec!["deno", "run", "--v8-flags=--help"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "_".to_string(),
}),
v8_flags: svec!["--help"],
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--v8-flags=--expose-gc,--gc-stats=1",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
v8_flags: svec!["--expose-gc", "--gc-stats=1"],
..Flags::default()
}
);
}
#[test]
fn has_permission() {
let r = flags_from_vec(svec!["deno", "run", "--allow-read", "x.ts"]);
assert_eq!(r.unwrap().has_permission(), true);
let r = flags_from_vec(svec!["deno", "run", "x.ts"]);
assert_eq!(r.unwrap().has_permission(), false);
}
#[test]
fn has_permission_in_argv() {
let r = flags_from_vec(svec!["deno", "run", "x.ts", "--allow-read"]);
assert_eq!(r.unwrap().has_permission_in_argv(), true);
let r = flags_from_vec(svec!["deno", "run", "x.ts"]);
assert_eq!(r.unwrap().has_permission_in_argv(), false);
}
#[test]
fn script_args() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-net",
"gist.ts",
"--title",
"X"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "gist.ts".to_string(),
}),
argv: svec!["--title", "X"],
allow_net: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn allow_all() {
let r = flags_from_vec(svec!["deno", "run", "--allow-all", "gist.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "gist.ts".to_string(),
}),
allow_all: true,
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn allow_read() {
let r = flags_from_vec(svec!["deno", "run", "--allow-read", "gist.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "gist.ts".to_string(),
}),
allow_read: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn allow_hrtime() {
let r = flags_from_vec(svec!["deno", "run", "--allow-hrtime", "gist.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "gist.ts".to_string(),
}),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn double_hyphen() {
// notice that flags passed after double dash will not
// be parsed to Flags but instead forwarded to
// script args as Deno.args
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-write",
"script.ts",
"--",
"-D",
"--allow-net"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
argv: svec!["--", "-D", "--allow-net"],
allow_write: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn fmt() {
let r = flags_from_vec(svec!["deno", "fmt", "script_1.ts", "script_2.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![
PathBuf::from("script_1.ts"),
PathBuf::from("script_2.ts")
],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "fmt", "--check"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: true,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "fmt"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "fmt", "--watch"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
watch: Some(vec![]),
..Flags::default()
}
);
let r =
flags_from_vec(svec!["deno", "fmt", "--watch", "--no-clear-screen"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
watch: Some(vec![]),
no_clear_screen: true,
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"fmt",
"--check",
"--watch",
"foo.ts",
"--ignore=bar.js"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: true,
files: FileFlags {
include: vec![PathBuf::from("foo.ts")],
ignore: vec![PathBuf::from("bar.js")],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
watch: Some(vec![]),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "fmt", "--config", "deno.jsonc"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
ext: Some("ts".to_string()),
config_flag: ConfigFlag::Path("deno.jsonc".to_string()),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"fmt",
"--config",
"deno.jsonc",
"--watch",
"foo.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![PathBuf::from("foo.ts")],
ignore: vec![],
},
use_tabs: None,
line_width: None,
indent_width: None,
single_quote: None,
prose_wrap: None,
no_semicolons: None,
}),
config_flag: ConfigFlag::Path("deno.jsonc".to_string()),
ext: Some("ts".to_string()),
watch: Some(vec![]),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"fmt",
"--use-tabs",
"--line-width",
"60",
"--indent-width",
"4",
"--single-quote",
"--prose-wrap",
"never",
"--no-semicolons",
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: Some(true),
line_width: Some(NonZeroU32::new(60).unwrap()),
indent_width: Some(NonZeroU8::new(4).unwrap()),
single_quote: Some(true),
prose_wrap: Some("never".to_string()),
no_semicolons: Some(true),
}),
ext: Some("ts".to_string()),
..Flags::default()
}
);
// try providing =false to the booleans
let r = flags_from_vec(svec![
"deno",
"fmt",
"--use-tabs=false",
"--single-quote=false",
"--no-semicolons=false",
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Fmt(FmtFlags {
check: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
use_tabs: Some(false),
line_width: None,
indent_width: None,
single_quote: Some(false),
prose_wrap: None,
no_semicolons: Some(false),
}),
ext: Some("ts".to_string()),
..Flags::default()
}
);
}
#[test]
fn lint() {
let r = flags_from_vec(svec!["deno", "lint", "script_1.ts", "script_2.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![
PathBuf::from("script_1.ts"),
PathBuf::from("script_2.ts")
],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: false,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"lint",
"--watch",
"script_1.ts",
"script_2.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![
PathBuf::from("script_1.ts"),
PathBuf::from("script_2.ts")
],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: false,
}),
watch: Some(vec![]),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"lint",
"--watch",
"--no-clear-screen",
"script_1.ts",
"script_2.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![
PathBuf::from("script_1.ts"),
PathBuf::from("script_2.ts")
],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: false,
}),
watch: Some(vec![]),
no_clear_screen: true,
..Flags::default()
}
);
let r =
flags_from_vec(svec!["deno", "lint", "--ignore=script_1.ts,script_2.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![],
ignore: vec![
PathBuf::from("script_1.ts"),
PathBuf::from("script_2.ts")
],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: false,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "lint", "--rules"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![],
ignore: vec![],
},
rules: true,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: false,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"lint",
"--rules-tags=",
"--rules-include=ban-untagged-todo,no-undef",
"--rules-exclude=no-const-assign"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![],
ignore: vec![],
},
rules: false,
maybe_rules_tags: Some(svec![""]),
maybe_rules_include: Some(svec!["ban-untagged-todo", "no-undef"]),
maybe_rules_exclude: Some(svec!["no-const-assign"]),
json: false,
compact: false,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "lint", "--json", "script_1.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![PathBuf::from("script_1.ts")],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: true,
compact: false,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"lint",
"--config",
"Deno.jsonc",
"--json",
"script_1.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![PathBuf::from("script_1.ts")],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: true,
compact: false,
}),
config_flag: ConfigFlag::Path("Deno.jsonc".to_string()),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"lint",
"--config",
"Deno.jsonc",
"--compact",
"script_1.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Lint(LintFlags {
files: FileFlags {
include: vec![PathBuf::from("script_1.ts")],
ignore: vec![],
},
rules: false,
maybe_rules_tags: None,
maybe_rules_include: None,
maybe_rules_exclude: None,
json: false,
compact: true,
}),
config_flag: ConfigFlag::Path("Deno.jsonc".to_string()),
..Flags::default()
}
);
}
#[test]
fn types() {
let r = flags_from_vec(svec!["deno", "types"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Types,
..Flags::default()
}
);
}
#[test]
fn cache() {
let r = flags_from_vec(svec!["deno", "cache", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Cache(CacheFlags {
files: svec!["script.ts"],
}),
..Flags::default()
}
);
}
#[test]
fn check() {
let r = flags_from_vec(svec!["deno", "check", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Check(CheckFlags {
files: svec!["script.ts"],
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
for all_flag in ["--remote", "--all"] {
let r = flags_from_vec(svec!["deno", "check", all_flag, "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Check(CheckFlags {
files: svec!["script.ts"],
}),
type_check_mode: TypeCheckMode::All,
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"check",
all_flag,
"--no-remote",
"script.ts"
]);
assert_eq!(
r.unwrap_err().kind(),
clap::error::ErrorKind::ArgumentConflict
);
}
}
#[test]
fn info() {
let r = flags_from_vec(svec!["deno", "info", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: false,
file: Some("script.ts".to_string()),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "info", "--reload", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: false,
file: Some("script.ts".to_string()),
}),
reload: true,
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "info", "--json", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: true,
file: Some("script.ts".to_string()),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "info"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: false,
file: None
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "info", "--json"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: true,
file: None
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"info",
"--no-npm",
"--no-remote",
"--config",
"tsconfig.json"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: false,
file: None
}),
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
no_npm: true,
no_remote: true,
..Flags::default()
}
);
}
#[test]
fn tsconfig() {
let r =
flags_from_vec(svec!["deno", "run", "-c", "tsconfig.json", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn eval() {
let r = flags_from_vec(svec!["deno", "eval", "'console.log(\"hello\")'"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Eval(EvalFlags {
print: false,
code: "'console.log(\"hello\")'".to_string(),
}),
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn eval_p() {
let r = flags_from_vec(svec!["deno", "eval", "-p", "1+2"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Eval(EvalFlags {
print: true,
code: "1+2".to_string(),
}),
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn eval_typescript() {
let r =
flags_from_vec(svec!["deno", "eval", "-T", "'console.log(\"hello\")'"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Eval(EvalFlags {
print: false,
code: "'console.log(\"hello\")'".to_string(),
}),
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
ext: Some("ts".to_string()),
..Flags::default()
}
);
}
#[test]
fn eval_with_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "eval", "--import-map", "import_map.json", "--no-remote", "--config", "tsconfig.json", "--no-check", "--reload", "--lock", "lock.json", "--lock-write", "--cert", "example.crt", "--cached-only", "--location", "https:foo", "--v8-flags=--help", "--seed", "1", "--inspect=127.0.0.1:9229", "42"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Eval(EvalFlags {
print: false,
code: "42".to_string(),
}),
import_map_path: Some("import_map.json".to_string()),
no_remote: true,
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
type_check_mode: TypeCheckMode::None,
reload: true,
lock: Some(PathBuf::from("lock.json")),
lock_write: true,
ca_data: Some(CaData::File("example.crt".to_string())),
cached_only: true,
location: Some(Url::parse("https://foo/").unwrap()),
v8_flags: svec!["--help", "--random-seed=1"],
seed: Some(1),
inspect: Some("127.0.0.1:9229".parse().unwrap()),
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn eval_args() {
let r = flags_from_vec(svec![
"deno",
"eval",
"console.log(Deno.args)",
"arg1",
"arg2"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Eval(EvalFlags {
print: false,
code: "console.log(Deno.args)".to_string(),
}),
argv: svec!["arg1", "arg2"],
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn repl() {
let r = flags_from_vec(svec!["deno"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: None,
is_default_command: true,
}),
allow_net: Some(vec![]),
unsafely_ignore_certificate_errors: None,
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
..Flags::default()
}
);
}
#[test]
fn repl_with_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "repl", "-A", "--import-map", "import_map.json", "--no-remote", "--config", "tsconfig.json", "--no-check", "--reload", "--lock", "lock.json", "--lock-write", "--cert", "example.crt", "--cached-only", "--location", "https:foo", "--v8-flags=--help", "--seed", "1", "--inspect=127.0.0.1:9229", "--unsafely-ignore-certificate-errors"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: None,
is_default_command: false,
}),
import_map_path: Some("import_map.json".to_string()),
no_remote: true,
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
type_check_mode: TypeCheckMode::None,
reload: true,
lock: Some(PathBuf::from("lock.json")),
lock_write: true,
ca_data: Some(CaData::File("example.crt".to_string())),
cached_only: true,
location: Some(Url::parse("https://foo/").unwrap()),
v8_flags: svec!["--help", "--random-seed=1"],
seed: Some(1),
inspect: Some("127.0.0.1:9229".parse().unwrap()),
allow_all: true,
allow_net: Some(vec![]),
allow_env: Some(vec![]),
allow_run: Some(vec![]),
allow_read: Some(vec![]),
allow_sys: Some(vec![]),
allow_write: Some(vec![]),
allow_ffi: Some(vec![]),
allow_hrtime: true,
unsafely_ignore_certificate_errors: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn repl_with_eval_flag() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "repl", "--allow-write", "--eval", "console.log('hello');"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: Some("console.log('hello');".to_string()),
is_default_command: false,
}),
allow_write: Some(vec![]),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn repl_with_eval_file_flag() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "repl", "--eval-file=./a.js,./b.ts,https://examples.deno.land/hello-world.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: Some(vec![
"./a.js".to_string(),
"./b.ts".to_string(),
"https://examples.deno.land/hello-world.ts".to_string()
]),
eval: None,
is_default_command: false,
}),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn allow_read_allowlist() {
use test_util::TempDir;
let temp_dir_guard = TempDir::new();
let temp_dir = temp_dir_guard.path().to_path_buf();
let r = flags_from_vec(svec![
"deno",
"run",
format!("--allow-read=.,{}", temp_dir.to_str().unwrap()),
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
allow_read: Some(vec![PathBuf::from("."), temp_dir]),
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
..Flags::default()
}
);
}
#[test]
fn allow_write_allowlist() {
use test_util::TempDir;
let temp_dir_guard = TempDir::new();
let temp_dir = temp_dir_guard.path().to_path_buf();
let r = flags_from_vec(svec![
"deno",
"run",
format!("--allow-write=.,{}", temp_dir.to_str().unwrap()),
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
allow_write: Some(vec![PathBuf::from("."), temp_dir]),
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
..Flags::default()
}
);
}
#[test]
fn allow_net_allowlist() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-net=127.0.0.1",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_net: Some(svec!["127.0.0.1"]),
..Flags::default()
}
);
}
#[test]
fn allow_env_allowlist() {
let r =
flags_from_vec(svec!["deno", "run", "--allow-env=HOME", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_env: Some(svec!["HOME"]),
..Flags::default()
}
);
}
#[test]
fn allow_env_allowlist_multiple() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-env=HOME,PATH",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_env: Some(svec!["HOME", "PATH"]),
..Flags::default()
}
);
}
#[test]
fn allow_env_allowlist_validator() {
let r =
flags_from_vec(svec!["deno", "run", "--allow-env=HOME", "script.ts"]);
assert!(r.is_ok());
let r =
flags_from_vec(svec!["deno", "run", "--allow-env=H=ME", "script.ts"]);
assert!(r.is_err());
let r =
flags_from_vec(svec!["deno", "run", "--allow-env=H\0ME", "script.ts"]);
assert!(r.is_err());
}
#[test]
fn allow_sys() {
let r = flags_from_vec(svec!["deno", "run", "--allow-sys", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_sys: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn allow_sys_allowlist() {
let r =
flags_from_vec(svec!["deno", "run", "--allow-sys=hostname", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_sys: Some(svec!["hostname"]),
..Flags::default()
}
);
}
#[test]
fn allow_sys_allowlist_multiple() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-sys=hostname,osRelease",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_sys: Some(svec!["hostname", "osRelease"]),
..Flags::default()
}
);
}
#[test]
fn allow_sys_allowlist_validator() {
let r =
flags_from_vec(svec!["deno", "run", "--allow-sys=hostname", "script.ts"]);
assert!(r.is_ok());
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-sys=hostname,osRelease",
"script.ts"
]);
assert!(r.is_ok());
let r =
flags_from_vec(svec!["deno", "run", "--allow-sys=foo", "script.ts"]);
assert!(r.is_err());
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-sys=hostname,foo",
"script.ts"
]);
assert!(r.is_err());
}
#[test]
fn reload_validator() {
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=http://deno.land/",
"script.ts"
]);
assert!(r.is_ok(), "should accept valid urls");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=http://deno.land/a,http://deno.land/b",
"script.ts"
]);
assert!(r.is_ok(), "should accept accept multiple valid urls");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=./relativeurl/",
"script.ts"
]);
assert!(r.is_err(), "Should reject relative urls that start with ./");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=relativeurl/",
"script.ts"
]);
assert!(r.is_err(), "Should reject relative urls");
let r =
flags_from_vec(svec!["deno", "run", "--reload=/absolute", "script.ts"]);
assert!(r.is_err(), "Should reject absolute urls");
let r = flags_from_vec(svec!["deno", "run", "--reload=/", "script.ts"]);
assert!(r.is_err(), "Should reject absolute root url");
let r = flags_from_vec(svec!["deno", "run", "--reload=", "script.ts"]);
assert!(r.is_err(), "Should reject when nothing is provided");
let r = flags_from_vec(svec!["deno", "run", "--reload=,", "script.ts"]);
assert!(r.is_err(), "Should reject when a single comma is provided");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=,http://deno.land/a",
"script.ts"
]);
assert!(r.is_err(), "Should reject a leading comma");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=http://deno.land/a,",
"script.ts"
]);
assert!(r.is_err(), "Should reject a trailing comma");
let r = flags_from_vec(svec![
"deno",
"run",
"--reload=http://deno.land/a,,http://deno.land/b",
"script.ts"
]);
assert!(r.is_err(), "Should reject adjacent commas");
}
#[test]
fn bundle() {
let r = flags_from_vec(svec!["deno", "bundle", "source.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
}
#[test]
fn bundle_with_config() {
let r = flags_from_vec(svec![
"deno",
"bundle",
"--no-remote",
"--config",
"tsconfig.json",
"source.ts",
"bundle.js"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: Some(PathBuf::from("bundle.js")),
}),
allow_write: Some(vec![]),
no_remote: true,
type_check_mode: TypeCheckMode::Local,
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn bundle_with_output() {
let r = flags_from_vec(svec!["deno", "bundle", "source.ts", "bundle.js"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: Some(PathBuf::from("bundle.js")),
}),
type_check_mode: TypeCheckMode::Local,
allow_write: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn bundle_with_lock() {
let r = flags_from_vec(svec![
"deno",
"bundle",
"--lock-write",
"--lock=lock.json",
"source.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
lock_write: true,
lock: Some(PathBuf::from("lock.json")),
..Flags::default()
}
);
}
#[test]
fn bundle_with_reload() {
let r = flags_from_vec(svec!["deno", "bundle", "--reload", "source.ts"]);
assert_eq!(
r.unwrap(),
Flags {
reload: true,
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
}
#[test]
fn bundle_nocheck() {
let r = flags_from_vec(svec!["deno", "bundle", "--no-check", "script.ts"])
.unwrap();
assert_eq!(
r,
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "script.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn bundle_watch() {
let r = flags_from_vec(svec!["deno", "bundle", "--watch", "source.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
watch: Some(vec![]),
..Flags::default()
}
)
}
#[test]
fn bundle_watch_with_no_clear_screen() {
let r = flags_from_vec(svec![
"deno",
"bundle",
"--watch",
"--no-clear-screen",
"source.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
watch: Some(vec![]),
no_clear_screen: true,
..Flags::default()
}
)
}
#[test]
fn run_import_map() {
let r = flags_from_vec(svec![
"deno",
"run",
"--import-map=import_map.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
import_map_path: Some("import_map.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn info_import_map() {
let r = flags_from_vec(svec![
"deno",
"info",
"--import-map=import_map.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
file: Some("script.ts".to_string()),
json: false,
}),
import_map_path: Some("import_map.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn cache_import_map() {
let r = flags_from_vec(svec![
"deno",
"cache",
"--import-map=import_map.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Cache(CacheFlags {
files: svec!["script.ts"],
}),
import_map_path: Some("import_map.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn doc_import_map() {
let r = flags_from_vec(svec![
"deno",
"doc",
"--import-map=import_map.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
source_file: DocSourceFileFlag::Path("script.ts".to_owned()),
private: false,
json: false,
filter: None,
}),
import_map_path: Some("import_map.json".to_owned()),
..Flags::default()
}
);
}
#[test]
fn cache_multiple() {
let r =
flags_from_vec(svec!["deno", "cache", "script.ts", "script_two.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Cache(CacheFlags {
files: svec!["script.ts", "script_two.ts"],
}),
..Flags::default()
}
);
}
#[test]
fn run_seed() {
let r = flags_from_vec(svec!["deno", "run", "--seed", "250", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
seed: Some(250_u64),
v8_flags: svec!["--random-seed=250"],
..Flags::default()
}
);
}
#[test]
fn run_seed_with_v8_flags() {
let r = flags_from_vec(svec![
"deno",
"run",
"--seed",
"250",
"--v8-flags=--expose-gc",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
seed: Some(250_u64),
v8_flags: svec!["--expose-gc", "--random-seed=250"],
..Flags::default()
}
);
}
#[test]
fn install() {
let r = flags_from_vec(svec![
"deno",
"install",
"https://deno.land/std/examples/colors.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Install(InstallFlags {
name: None,
module_url: "https://deno.land/std/examples/colors.ts".to_string(),
args: vec![],
root: None,
force: false,
}),
..Flags::default()
}
);
}
#[test]
fn install_with_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "install", "--import-map", "import_map.json", "--no-remote", "--config", "tsconfig.json", "--no-check", "--unsafely-ignore-certificate-errors", "--reload", "--lock", "lock.json", "--lock-write", "--cert", "example.crt", "--cached-only", "--allow-read", "--allow-net", "--v8-flags=--help", "--seed", "1", "--inspect=127.0.0.1:9229", "--name", "file_server", "--root", "/foo", "--force", "https://deno.land/std/http/file_server.ts", "foo", "bar"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Install(InstallFlags {
name: Some("file_server".to_string()),
module_url: "https://deno.land/std/http/file_server.ts".to_string(),
args: svec!["foo", "bar"],
root: Some(PathBuf::from("/foo")),
force: true,
}),
import_map_path: Some("import_map.json".to_string()),
no_remote: true,
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
type_check_mode: TypeCheckMode::None,
reload: true,
lock: Some(PathBuf::from("lock.json")),
lock_write: true,
ca_data: Some(CaData::File("example.crt".to_string())),
cached_only: true,
v8_flags: svec!["--help", "--random-seed=1"],
seed: Some(1),
inspect: Some("127.0.0.1:9229".parse().unwrap()),
allow_net: Some(vec![]),
unsafely_ignore_certificate_errors: Some(vec![]),
allow_read: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn uninstall() {
let r = flags_from_vec(svec!["deno", "uninstall", "file_server"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Uninstall(UninstallFlags {
name: "file_server".to_string(),
root: None,
}),
..Flags::default()
}
);
}
#[test]
fn uninstall_with_help_flag() {
let r = flags_from_vec(svec!["deno", "uninstall", "--help"]);
assert_eq!(r.err().unwrap().kind(), clap::error::ErrorKind::DisplayHelp);
}
#[test]
fn log_level() {
let r =
flags_from_vec(svec!["deno", "run", "--log-level=debug", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
log_level: Some(Level::Debug),
..Flags::default()
}
);
}
#[test]
fn quiet() {
let r = flags_from_vec(svec!["deno", "run", "-q", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
log_level: Some(Level::Error),
..Flags::default()
}
);
}
#[test]
fn completions() {
let r = flags_from_vec(svec!["deno", "completions", "zsh"]).unwrap();
match r.subcommand {
DenoSubcommand::Completions(CompletionsFlags { buf }) => {
assert!(!buf.is_empty())
}
_ => unreachable!(),
}
}
#[test]
fn run_with_args() {
let r = flags_from_vec(svec![
"deno",
"run",
"script.ts",
"--allow-read",
"--allow-net"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
argv: svec!["--allow-read", "--allow-net"],
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--location",
"https:foo",
"--allow-read",
"script.ts",
"--allow-net",
"-r",
"--help",
"--foo",
"bar"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
location: Some(Url::parse("https://foo/").unwrap()),
allow_read: Some(vec![]),
argv: svec!["--allow-net", "-r", "--help", "--foo", "bar"],
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "script.ts", "foo", "bar"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
argv: svec!["foo", "bar"],
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "script.ts", "-"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
argv: svec!["-"],
..Flags::default()
}
);
let r =
flags_from_vec(svec!["deno", "run", "script.ts", "-", "foo", "bar"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
argv: svec!["-", "foo", "bar"],
..Flags::default()
}
);
}
#[test]
fn no_check() {
let r = flags_from_vec(svec!["deno", "run", "--no-check", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn no_check_remote() {
let r =
flags_from_vec(svec!["deno", "run", "--no-check=remote", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
}
#[test]
fn repl_with_unsafely_ignore_certificate_errors() {
let r = flags_from_vec(svec![
"deno",
"repl",
"--eval",
"console.log('hello');",
"--unsafely-ignore-certificate-errors"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: Some("console.log('hello');".to_string()),
is_default_command: false,
}),
unsafely_ignore_certificate_errors: Some(vec![]),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn run_with_unsafely_ignore_certificate_errors() {
let r = flags_from_vec(svec![
"deno",
"run",
"--unsafely-ignore-certificate-errors",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
unsafely_ignore_certificate_errors: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn run_with_unsafely_treat_insecure_origin_as_secure_with_ipv6_address() {
let r = flags_from_vec(svec![
"deno",
"run",
"--unsafely-ignore-certificate-errors=deno.land,localhost,::,127.0.0.1,[::1],1.2.3.4",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
unsafely_ignore_certificate_errors: Some(svec![
"deno.land",
"localhost",
"::",
"127.0.0.1",
"[::1]",
"1.2.3.4"
]),
..Flags::default()
}
);
}
#[test]
fn repl_with_unsafely_treat_insecure_origin_as_secure_with_ipv6_address() {
let r = flags_from_vec(svec![
"deno",
"repl",
"--unsafely-ignore-certificate-errors=deno.land,localhost,::,127.0.0.1,[::1],1.2.3.4"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Repl(ReplFlags {
eval_files: None,
eval: None,
is_default_command: false,
}),
unsafely_ignore_certificate_errors: Some(svec![
"deno.land",
"localhost",
"::",
"127.0.0.1",
"[::1]",
"1.2.3.4"
]),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
}
#[test]
fn no_remote() {
let r = flags_from_vec(svec!["deno", "run", "--no-remote", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
no_remote: true,
..Flags::default()
}
);
}
#[test]
fn no_npm() {
let r = flags_from_vec(svec!["deno", "run", "--no-npm", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
no_npm: true,
..Flags::default()
}
);
}
#[test]
fn local_npm() {
let r =
flags_from_vec(svec!["deno", "run", "--node-modules-dir", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
node_modules_dir: Some(true),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--node-modules-dir=false",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
node_modules_dir: Some(false),
..Flags::default()
}
);
}
#[test]
fn cached_only() {
let r = flags_from_vec(svec!["deno", "run", "--cached-only", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
cached_only: true,
..Flags::default()
}
);
}
#[test]
fn allow_net_allowlist_with_ports() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-net=deno.land,:8000,:4545",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_net: Some(svec![
"deno.land",
"0.0.0.0:8000",
"127.0.0.1:8000",
"localhost:8000",
"0.0.0.0:4545",
"127.0.0.1:4545",
"localhost:4545"
]),
..Flags::default()
}
);
}
#[test]
fn allow_net_allowlist_with_ipv6_address() {
let r = flags_from_vec(svec![
"deno",
"run",
"--allow-net=deno.land,deno.land:80,::,127.0.0.1,[::1],1.2.3.4:5678,:5678,[::1]:8080",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
allow_net: Some(svec![
"deno.land",
"deno.land:80",
"::",
"127.0.0.1",
"[::1]",
"1.2.3.4:5678",
"0.0.0.0:5678",
"127.0.0.1:5678",
"localhost:5678",
"[::1]:8080"
]),
..Flags::default()
}
);
}
#[test]
fn lock_write() {
let r = flags_from_vec(svec![
"deno",
"run",
"--lock-write",
"--lock=lock.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
lock_write: true,
lock: Some(PathBuf::from("lock.json")),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "--no-lock", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
no_lock: true,
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--lock",
"--lock-write",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
lock_write: true,
lock: Some(PathBuf::from("./deno.lock")),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--lock-write",
"--lock",
"lock.json",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
lock_write: true,
lock: Some(PathBuf::from("lock.json")),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "--lock-write", "script.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
lock_write: true,
..Flags::default()
}
);
let r =
flags_from_vec(svec!["deno", "run", "--lock", "--no-lock", "script.ts"]);
assert!(r.is_err(),);
let r = flags_from_vec(svec![
"deno",
"run",
"--lock-write",
"--no-lock",
"script.ts"
]);
assert!(r.is_err(),);
}
#[test]
fn test_no_colon_in_value_name() {
let app =
runtime_args(Command::new("test_inspect_completion_value"), true, true);
let inspect_args = app
.get_arguments()
.filter(|arg| arg.get_id() == "inspect")
.collect::<Vec<_>>();
// The value_name cannot have a : otherwise it breaks shell completions for zsh.
let value_name = "HOST_AND_PORT";
let arg = inspect_args
.iter()
.any(|v| v.get_value_names().unwrap() == [value_name]);
assert_eq!(arg, true);
}
#[test]
fn test_with_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "test", "--unstable", "--no-npm", "--no-remote", "--trace-ops", "--no-run", "--filter", "- foo", "--coverage=cov", "--location", "https:foo", "--allow-net", "--allow-none", "dir1/", "dir2/", "--", "arg1", "arg2"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: true,
doc: false,
fail_fast: None,
filter: Some("- foo".to_string()),
allow_none: true,
files: FileFlags {
include: vec![PathBuf::from("dir1/"), PathBuf::from("dir2/")],
ignore: vec![],
},
shuffle: None,
concurrent_jobs: None,
trace_ops: true,
}),
unstable: true,
no_prompt: true,
no_npm: true,
no_remote: true,
coverage_dir: Some("cov".to_string()),
location: Some(Url::parse("https://foo/").unwrap()),
type_check_mode: TypeCheckMode::Local,
allow_net: Some(vec![]),
argv: svec!["arg1", "arg2"],
..Flags::default()
}
);
}
#[test]
fn run_with_cafile() {
let r = flags_from_vec(svec![
"deno",
"run",
"--cert",
"example.crt",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
ca_data: Some(CaData::File("example.crt".to_owned())),
..Flags::default()
}
);
}
#[test]
fn run_with_enable_testing_features() {
let r = flags_from_vec(svec![
"deno",
"run",
"--enable-testing-features-do-not-use",
"script.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
enable_testing_features: true,
..Flags::default()
}
);
}
#[test]
fn test_with_concurrent_jobs() {
let r = flags_from_vec(svec!["deno", "test", "--jobs=4"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: Some(NonZeroUsize::new(4).unwrap()),
trace_ops: false,
}),
type_check_mode: TypeCheckMode::Local,
no_prompt: true,
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "test", "--jobs=0"]);
assert!(r.is_err());
}
#[test]
fn test_with_fail_fast() {
let r = flags_from_vec(svec!["deno", "test", "--fail-fast=3"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: Some(NonZeroUsize::new(3).unwrap()),
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
type_check_mode: TypeCheckMode::Local,
no_prompt: true,
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "test", "--fail-fast=0"]);
assert!(r.is_err());
}
#[test]
fn test_with_enable_testing_features() {
let r = flags_from_vec(svec![
"deno",
"test",
"--enable-testing-features-do-not-use"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
no_prompt: true,
type_check_mode: TypeCheckMode::Local,
enable_testing_features: true,
..Flags::default()
}
);
}
#[test]
fn test_shuffle() {
let r = flags_from_vec(svec!["deno", "test", "--shuffle=1"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: Some(1),
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
no_prompt: true,
watch: None,
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
}
#[test]
fn test_watch() {
let r = flags_from_vec(svec!["deno", "test", "--watch"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
no_prompt: true,
type_check_mode: TypeCheckMode::Local,
watch: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn test_watch_explicit_cwd() {
let r = flags_from_vec(svec!["deno", "test", "--watch", "./"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![PathBuf::from("./")],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
no_prompt: true,
type_check_mode: TypeCheckMode::Local,
watch: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn test_watch_with_no_clear_screen() {
let r =
flags_from_vec(svec!["deno", "test", "--watch", "--no-clear-screen"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Test(TestFlags {
no_run: false,
doc: false,
fail_fast: None,
filter: None,
allow_none: false,
shuffle: None,
files: FileFlags {
include: vec![],
ignore: vec![],
},
concurrent_jobs: None,
trace_ops: false,
}),
watch: Some(vec![]),
type_check_mode: TypeCheckMode::Local,
no_clear_screen: true,
no_prompt: true,
..Flags::default()
}
);
}
#[test]
fn bundle_with_cafile() {
let r = flags_from_vec(svec![
"deno",
"bundle",
"--cert",
"example.crt",
"source.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bundle(BundleFlags {
source_file: "source.ts".to_string(),
out_file: None,
}),
type_check_mode: TypeCheckMode::Local,
ca_data: Some(CaData::File("example.crt".to_owned())),
..Flags::default()
}
);
}
#[test]
fn upgrade_with_ca_file() {
let r = flags_from_vec(svec!["deno", "upgrade", "--cert", "example.crt"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Upgrade(UpgradeFlags {
force: false,
dry_run: false,
canary: false,
version: None,
output: None,
}),
ca_data: Some(CaData::File("example.crt".to_owned())),
..Flags::default()
}
);
}
#[test]
fn cache_with_cafile() {
let r = flags_from_vec(svec![
"deno",
"cache",
"--cert",
"example.crt",
"script.ts",
"script_two.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Cache(CacheFlags {
files: svec!["script.ts", "script_two.ts"],
}),
ca_data: Some(CaData::File("example.crt".to_owned())),
..Flags::default()
}
);
}
#[test]
fn info_with_cafile() {
let r = flags_from_vec(svec![
"deno",
"info",
"--cert",
"example.crt",
"https://example.com"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Info(InfoFlags {
json: false,
file: Some("https://example.com".to_string()),
}),
ca_data: Some(CaData::File("example.crt".to_owned())),
..Flags::default()
}
);
}
#[test]
fn doc() {
let r = flags_from_vec(svec!["deno", "doc", "--json", "path/to/module.ts"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
private: false,
json: true,
source_file: DocSourceFileFlag::Path("path/to/module.ts".to_string()),
filter: None,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"doc",
"path/to/module.ts",
"SomeClass.someField"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
private: false,
json: false,
source_file: DocSourceFileFlag::Path("path/to/module.ts".to_string()),
filter: Some("SomeClass.someField".to_string()),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "doc"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
private: false,
json: false,
source_file: Default::default(),
filter: None,
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "doc", "--builtin", "Deno.Listener"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
private: false,
json: false,
source_file: DocSourceFileFlag::Builtin,
filter: Some("Deno.Listener".to_string()),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"doc",
"--no-npm",
"--no-remote",
"--private",
"path/to/module.js"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Doc(DocFlags {
private: true,
json: false,
source_file: DocSourceFileFlag::Path("path/to/module.js".to_string()),
filter: None,
}),
no_npm: true,
no_remote: true,
..Flags::default()
}
);
}
#[test]
fn inspect_default_host() {
let r = flags_from_vec(svec!["deno", "run", "--inspect", "foo.js"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "foo.js".to_string(),
}),
inspect: Some("127.0.0.1:9229".parse().unwrap()),
..Flags::default()
}
);
}
#[test]
fn inspect_wait() {
let r = flags_from_vec(svec!["deno", "run", "--inspect-wait", "foo.js"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "foo.js".to_string(),
}),
inspect_wait: Some("127.0.0.1:9229".parse().unwrap()),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--inspect-wait=127.0.0.1:3567",
"foo.js"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "foo.js".to_string(),
}),
inspect_wait: Some("127.0.0.1:3567".parse().unwrap()),
..Flags::default()
}
);
}
#[test]
fn compile() {
let r = flags_from_vec(svec![
"deno",
"compile",
"https://deno.land/std/examples/colors.ts"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Compile(CompileFlags {
source_file: "https://deno.land/std/examples/colors.ts".to_string(),
output: None,
args: vec![],
target: None,
include: vec![]
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
}
#[test]
fn compile_with_flags() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "compile", "--import-map", "import_map.json", "--no-remote", "--config", "tsconfig.json", "--no-check", "--unsafely-ignore-certificate-errors", "--reload", "--lock", "lock.json", "--lock-write", "--cert", "example.crt", "--cached-only", "--location", "https:foo", "--allow-read", "--allow-net", "--v8-flags=--help", "--seed", "1", "--output", "colors", "https://deno.land/std/examples/colors.ts", "foo", "bar"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Compile(CompileFlags {
source_file: "https://deno.land/std/examples/colors.ts".to_string(),
output: Some(PathBuf::from("colors")),
args: svec!["foo", "bar"],
target: None,
include: vec![]
}),
import_map_path: Some("import_map.json".to_string()),
no_remote: true,
config_flag: ConfigFlag::Path("tsconfig.json".to_owned()),
type_check_mode: TypeCheckMode::None,
reload: true,
lock: Some(PathBuf::from("lock.json")),
lock_write: true,
ca_data: Some(CaData::File("example.crt".to_string())),
cached_only: true,
location: Some(Url::parse("https://foo/").unwrap()),
allow_read: Some(vec![]),
unsafely_ignore_certificate_errors: Some(vec![]),
allow_net: Some(vec![]),
v8_flags: svec!["--help", "--random-seed=1"],
seed: Some(1),
..Flags::default()
}
);
}
#[test]
fn coverage() {
let r = flags_from_vec(svec!["deno", "coverage", "foo.json"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Coverage(CoverageFlags {
files: FileFlags {
include: vec![PathBuf::from("foo.json")],
ignore: vec![],
},
output: None,
include: vec![r"^file:".to_string()],
exclude: vec![r"test\.(js|mjs|ts|jsx|tsx)$".to_string()],
lcov: false,
}),
..Flags::default()
}
);
}
#[test]
fn coverage_with_lcov_and_out_file() {
let r = flags_from_vec(svec![
"deno",
"coverage",
"--lcov",
"--output=foo.lcov",
"foo.json"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Coverage(CoverageFlags {
files: FileFlags {
include: vec![PathBuf::from("foo.json")],
ignore: vec![],
},
include: vec![r"^file:".to_string()],
exclude: vec![r"test\.(js|mjs|ts|jsx|tsx)$".to_string()],
lcov: true,
output: Some(PathBuf::from("foo.lcov")),
}),
..Flags::default()
}
);
}
#[test]
fn location_with_bad_scheme() {
#[rustfmt::skip]
let r = flags_from_vec(svec!["deno", "run", "--location", "foo:", "mod.ts"]);
assert!(r.is_err());
assert!(r
.unwrap_err()
.to_string()
.contains("Expected protocol \"http\" or \"https\""));
}
#[test]
fn test_config_path_args() {
let flags = flags_from_vec(svec!["deno", "run", "foo.js"]).unwrap();
let cwd = std::env::current_dir().unwrap();
assert_eq!(flags.config_path_args(&cwd), Some(vec![cwd.join("foo.js")]));
let flags =
flags_from_vec(svec!["deno", "run", "https://example.com/foo.js"])
.unwrap();
assert_eq!(flags.config_path_args(&cwd), None);
let flags =
flags_from_vec(svec!["deno", "lint", "dir/a.js", "dir/b.js"]).unwrap();
assert_eq!(
flags.config_path_args(&cwd),
Some(vec![PathBuf::from("dir/a.js"), PathBuf::from("dir/b.js")])
);
let flags = flags_from_vec(svec!["deno", "lint"]).unwrap();
assert!(flags.config_path_args(&cwd).unwrap().is_empty());
let flags =
flags_from_vec(svec!["deno", "fmt", "dir/a.js", "dir/b.js"]).unwrap();
assert_eq!(
flags.config_path_args(&cwd),
Some(vec![PathBuf::from("dir/a.js"), PathBuf::from("dir/b.js")])
);
}
#[test]
fn test_no_clear_watch_flag_without_watch_flag() {
let r = flags_from_vec(svec!["deno", "run", "--no-clear-screen", "foo.js"]);
assert!(r.is_err());
let error_message = r.unwrap_err().to_string();
assert!(&error_message
.contains("error: the following required arguments were not provided:"));
assert!(&error_message.contains("--watch[=<FILES>...]"));
}
#[test]
fn vendor_minimal() {
let r = flags_from_vec(svec!["deno", "vendor", "mod.ts",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Vendor(VendorFlags {
specifiers: svec!["mod.ts"],
force: false,
output_path: None,
}),
..Flags::default()
}
);
}
#[test]
fn vendor_all() {
let r = flags_from_vec(svec![
"deno",
"vendor",
"--config",
"deno.json",
"--import-map",
"import_map.json",
"--lock",
"lock.json",
"--force",
"--output",
"out_dir",
"--reload",
"mod.ts",
"deps.test.ts",
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Vendor(VendorFlags {
specifiers: svec!["mod.ts", "deps.test.ts"],
force: true,
output_path: Some(PathBuf::from("out_dir")),
}),
config_flag: ConfigFlag::Path("deno.json".to_owned()),
import_map_path: Some("import_map.json".to_string()),
lock: Some(PathBuf::from("lock.json")),
reload: true,
..Flags::default()
}
);
}
#[test]
fn task_subcommand() {
let r = flags_from_vec(svec!["deno", "task", "build", "hello", "world",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
argv: svec!["hello", "world"],
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "task", "build"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "task", "--cwd", "foo", "build"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: Some("foo".to_string()),
task: Some("build".to_string()),
}),
..Flags::default()
}
);
}
#[test]
fn task_subcommand_double_hyphen() {
let r = flags_from_vec(svec![
"deno",
"task",
"-c",
"deno.json",
"build",
"--",
"hello",
"world",
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
argv: svec!["--", "hello", "world"],
config_flag: ConfigFlag::Path("deno.json".to_owned()),
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno", "task", "--cwd", "foo", "build", "--", "hello", "world"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: Some("foo".to_string()),
task: Some("build".to_string()),
}),
argv: svec!["--", "hello", "world"],
..Flags::default()
}
);
}
#[test]
fn task_subcommand_double_hyphen_only() {
// edge case, but it should forward
let r = flags_from_vec(svec!["deno", "task", "build", "--"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
argv: svec!["--"],
..Flags::default()
}
);
}
#[test]
fn task_following_arg() {
let r = flags_from_vec(svec!["deno", "task", "build", "-1", "--test"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
argv: svec!["-1", "--test"],
..Flags::default()
}
);
}
#[test]
fn task_following_double_hyphen_arg() {
let r = flags_from_vec(svec!["deno", "task", "build", "--test"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
argv: svec!["--test"],
..Flags::default()
}
);
}
#[test]
fn task_with_global_flags() {
// can fail if the custom parser in task_parse() starts at the wrong index
let r =
flags_from_vec(svec!["deno", "--quiet", "--unstable", "task", "build"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: Some("build".to_string()),
}),
unstable: true,
log_level: Some(log::Level::Error),
..Flags::default()
}
);
}
#[test]
fn task_subcommand_empty() {
let r = flags_from_vec(svec!["deno", "task"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: None,
}),
..Flags::default()
}
);
}
#[test]
fn task_subcommand_config() {
let r = flags_from_vec(svec!["deno", "task", "--config", "deno.jsonc"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: None,
}),
config_flag: ConfigFlag::Path("deno.jsonc".to_string()),
..Flags::default()
}
);
}
#[test]
fn task_subcommand_config_short() {
let r = flags_from_vec(svec!["deno", "task", "-c", "deno.jsonc"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Task(TaskFlags {
cwd: None,
task: None,
}),
config_flag: ConfigFlag::Path("deno.jsonc".to_string()),
..Flags::default()
}
);
}
#[test]
fn task_subcommand_noconfig_invalid() {
let r = flags_from_vec(svec!["deno", "task", "--no-config"]);
assert_eq!(
r.unwrap_err().kind(),
clap::error::ErrorKind::UnknownArgument
);
}
#[test]
fn bench_with_flags() {
let r = flags_from_vec(svec![
"deno",
"bench",
"--json",
"--unstable",
"--no-npm",
"--no-remote",
"--no-run",
"--filter",
"- foo",
"--location",
"https:foo",
"--allow-net",
"dir1/",
"dir2/",
"--",
"arg1",
"arg2"
]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bench(BenchFlags {
filter: Some("- foo".to_string()),
json: true,
no_run: true,
files: FileFlags {
include: vec![PathBuf::from("dir1/"), PathBuf::from("dir2/")],
ignore: vec![],
},
}),
unstable: true,
no_npm: true,
no_remote: true,
type_check_mode: TypeCheckMode::Local,
location: Some(Url::parse("https://foo/").unwrap()),
allow_net: Some(vec![]),
no_prompt: true,
argv: svec!["arg1", "arg2"],
..Flags::default()
}
);
}
#[test]
fn bench_watch() {
let r = flags_from_vec(svec!["deno", "bench", "--watch"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Bench(BenchFlags {
filter: None,
json: false,
no_run: false,
files: FileFlags {
include: vec![],
ignore: vec![],
},
}),
no_prompt: true,
type_check_mode: TypeCheckMode::Local,
watch: Some(vec![]),
..Flags::default()
}
);
}
#[test]
fn run_with_check() {
let r = flags_from_vec(svec!["deno", "run", "--check", "script.ts",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
type_check_mode: TypeCheckMode::Local,
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "--check=all", "script.ts",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
type_check_mode: TypeCheckMode::All,
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "run", "--check=foo", "script.ts",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
type_check_mode: TypeCheckMode::None,
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--no-check",
"--check",
"script.ts",
]);
assert!(r.is_err());
}
#[test]
fn no_config() {
let r = flags_from_vec(svec!["deno", "run", "--no-config", "script.ts",]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Run(RunFlags {
script: "script.ts".to_string(),
}),
config_flag: ConfigFlag::Disabled,
..Flags::default()
}
);
let r = flags_from_vec(svec![
"deno",
"run",
"--config",
"deno.json",
"--no-config",
"script.ts",
]);
assert!(r.is_err());
}
#[test]
fn init() {
let r = flags_from_vec(svec!["deno", "init"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Init(InitFlags { dir: None }),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "init", "foo"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Init(InitFlags {
dir: Some(String::from("foo")),
}),
..Flags::default()
}
);
let r = flags_from_vec(svec!["deno", "init", "--quiet"]);
assert_eq!(
r.unwrap(),
Flags {
subcommand: DenoSubcommand::Init(InitFlags { dir: None }),
log_level: Some(Level::Error),
..Flags::default()
}
);
}
}