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baeba19b22
nushell/src/test_bins.rs
YizhePKU 7a86b98f61
Migrate to a new PWD API (part 2) (#12749) 
Refer to #12603 for part 1.

We need to be careful when migrating to the new API, because the new API
has slightly different semantics (PWD can contain symlinks). This PR
handles the "obviously safe" part of the migrations. Namely, it handles
two specific use cases:

* Passing PWD into `canonicalize_with()`
* Passing PWD into `EngineState::merge_env()`

The first case is safe because symlinks are canonicalized away. The
second case is safe because `EngineState::merge_env()` only uses PWD to
call `std::env::set_current_dir()`, which shouldn't affact Nushell. The
commit message contains detailed stats on the updated files.

Because these migrations touch a lot of files, I want to keep these PRs
small to avoid merge conflicts.
2024-05-07 18:17:49 +03:00

392 lines
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use nu_cmd_base::hook::{eval_env_change_hook, eval_hook};
use nu_engine::eval_block;
use nu_parser::parse;
use nu_protocol::{
cli_error::CliError,
debugger::WithoutDebug,
engine::{EngineState, Stack, StateWorkingSet},
PipelineData, Value,
};
use nu_std::load_standard_library;
use std::{
io::{self, BufRead, Read, Write},
sync::Arc,
};
/// Echo's value of env keys from args
/// Example: nu --testbin env_echo FOO BAR
/// If it it's not present echo's nothing
pub fn echo_env(to_stdout: bool) {
let args = args();
for arg in args {
echo_one_env(&arg, to_stdout)
}
}
pub fn echo_env_and_fail(to_stdout: bool) {
echo_env(to_stdout);
fail();
}
fn echo_one_env(arg: &str, to_stdout: bool) {
if let Ok(v) = std::env::var(arg) {
if to_stdout {
println!("{v}");
} else {
eprintln!("{v}");
}
}
}
/// Mix echo of env keys from input
/// Example:
/// * nu --testbin echo_env_mixed out-err FOO BAR
/// * nu --testbin echo_env_mixed err-out FOO BAR
/// If it's not present, panic instead
pub fn echo_env_mixed() {
let args = args();
let args = &args[1..];
if args.len() != 3 {
panic!(
r#"Usage examples:
* nu --testbin echo_env_mixed out-err FOO BAR
* nu --testbin echo_env_mixed err-out FOO BAR"#
)
}
match args[0].as_str() {
"out-err" => {
let (out_arg, err_arg) = (&args[1], &args[2]);
echo_one_env(out_arg, true);
echo_one_env(err_arg, false);
}
"err-out" => {
let (err_arg, out_arg) = (&args[1], &args[2]);
echo_one_env(err_arg, false);
echo_one_env(out_arg, true);
}
_ => panic!("The mixed type must be `out_err`, `err_out`"),
}
}
/// Cross platform echo using println!()
/// Example: nu --testbin cococo a b c
/// a b c
pub fn cococo() {
let args: Vec<String> = args();
if args.len() > 1 {
// Write back out all the arguments passed
// if given at least 1 instead of chickens
// speaking co co co.
println!("{}", &args[1..].join(" "));
} else {
println!("cococo");
}
}
/// Cross platform cat (open a file, print the contents) using read_to_string and println!()
pub fn meow() {
let args: Vec<String> = args();
for arg in args.iter().skip(1) {
let contents = std::fs::read_to_string(arg).expect("Expected a filepath");
println!("{contents}");
}
}
/// Cross platform cat (open a file, print the contents) using read() and write_all() / binary
pub fn meowb() {
let args: Vec<String> = args();
let stdout = io::stdout();
let mut handle = stdout.lock();
for arg in args.iter().skip(1) {
let buf = std::fs::read(arg).expect("Expected a filepath");
handle.write_all(&buf).expect("failed to write to stdout");
}
}
// Relays anything received on stdin to stdout
pub fn relay() {
io::copy(&mut io::stdin().lock(), &mut io::stdout().lock())
.expect("failed to copy stdin to stdout");
}
/// Cross platform echo but concats arguments without space and NO newline
/// nu --testbin nonu a b c
/// abc
pub fn nonu() {
args().iter().skip(1).for_each(|arg| print!("{arg}"));
}
/// Repeat a string or char N times
/// nu --testbin repeater a 5
/// aaaaa
/// nu --testbin repeater test 5
/// testtesttesttesttest
pub fn repeater() {
let mut stdout = io::stdout();
let args = args();
let mut args = args.iter().skip(1);
let letter = args.next().expect("needs a character to iterate");
let count = args.next().expect("need the number of times to iterate");
let count: u64 = count.parse().expect("can't convert count to number");
for _ in 0..count {
let _ = write!(stdout, "{letter}");
}
let _ = stdout.flush();
}
/// A version of repeater that can output binary data, even null bytes
pub fn repeat_bytes() {
let mut stdout = io::stdout();
let args = args();
let mut args = args.iter().skip(1);
while let (Some(binary), Some(count)) = (args.next(), args.next()) {
let bytes: Vec<u8> = (0..binary.len())
.step_by(2)
.map(|i| {
u8::from_str_radix(&binary[i..i + 2], 16)
.expect("binary string is valid hexadecimal")
})
.collect();
let count: u64 = count.parse().expect("repeat count must be a number");
for _ in 0..count {
stdout
.write_all(&bytes)
.expect("writing to stdout must not fail");
}
}
let _ = stdout.flush();
}
/// Another type of echo that outputs a parameter per line, looping infinitely
pub fn iecho() {
// println! panics if stdout gets closed, whereas writeln gives us an error
let mut stdout = io::stdout();
let _ = args()
.iter()
.skip(1)
.cycle()
.try_for_each(|v| writeln!(stdout, "{v}"));
}
pub fn fail() {
std::process::exit(1);
}
/// With no parameters, will chop a character off the end of each line
pub fn chop() {
if did_chop_arguments() {
// we are done and don't care about standard input.
std::process::exit(0);
}
// if no arguments given, chop from standard input and exit.
let stdin = io::stdin();
let mut stdout = io::stdout();
for given in stdin.lock().lines().map_while(Result::ok) {
let chopped = if given.is_empty() {
&given
} else {
let to = given.len() - 1;
&given[..to]
};
if let Err(_e) = writeln!(stdout, "{chopped}") {
break;
}
}
std::process::exit(0);
}
fn outcome_err(
engine_state: &EngineState,
error: &(dyn miette::Diagnostic + Send + Sync + 'static),
) -> ! {
let working_set = StateWorkingSet::new(engine_state);
eprintln!("Error: {:?}", CliError(error, &working_set));
std::process::exit(1);
}
fn outcome_ok(msg: String) -> ! {
println!("{msg}");
std::process::exit(0);
}
/// Generate a minimal engine state with just `nu-cmd-lang`, `nu-command`, and `nu-cli` commands.
fn get_engine_state() -> EngineState {
let engine_state = nu_cmd_lang::create_default_context();
let engine_state = nu_command::add_shell_command_context(engine_state);
nu_cli::add_cli_context(engine_state)
}
pub fn nu_repl() {
//cwd: &str, source_lines: &[&str]) {
let cwd = std::env::current_dir().expect("Could not get current working directory.");
let source_lines = args();
let mut engine_state = get_engine_state();
let mut top_stack = Arc::new(Stack::new());
engine_state.add_env_var("PWD".into(), Value::test_string(cwd.to_string_lossy()));
let mut last_output = String::new();
load_standard_library(&mut engine_state).expect("Could not load the standard library.");
for (i, line) in source_lines.iter().enumerate() {
let mut stack = Stack::with_parent(top_stack.clone());
let cwd = engine_state
.cwd(Some(&stack))
.unwrap_or_else(|err| outcome_err(&engine_state, &err));
// Before doing anything, merge the environment from the previous REPL iteration into the
// permanent state.
if let Err(err) = engine_state.merge_env(&mut stack, &cwd) {
outcome_err(&engine_state, &err);
}
// Check for pre_prompt hook
let config = engine_state.get_config();
if let Some(hook) = config.hooks.pre_prompt.clone() {
if let Err(err) = eval_hook(
&mut engine_state,
&mut stack,
None,
vec![],
&hook,
"pre_prompt",
) {
outcome_err(&engine_state, &err);
}
}
// Check for env change hook
let config = engine_state.get_config();
if let Err(err) = eval_env_change_hook(
config.hooks.env_change.clone(),
&mut engine_state,
&mut stack,
) {
outcome_err(&engine_state, &err);
}
// Check for pre_execution hook
let config = engine_state.get_config();
engine_state
.repl_state
.lock()
.expect("repl state mutex")
.buffer = line.to_string();
if let Some(hook) = config.hooks.pre_execution.clone() {
if let Err(err) = eval_hook(
&mut engine_state,
&mut stack,
None,
vec![],
&hook,
"pre_execution",
) {
outcome_err(&engine_state, &err);
}
}
// Eval the REPL line
let (block, delta) = {
let mut working_set = StateWorkingSet::new(&engine_state);
let block = parse(
&mut working_set,
Some(&format!("line{i}")),
line.as_bytes(),
false,
);
if let Some(err) = working_set.parse_errors.first() {
outcome_err(&engine_state, err);
}
(block, working_set.render())
};
if let Err(err) = engine_state.merge_delta(delta) {
outcome_err(&engine_state, &err);
}
let input = PipelineData::empty();
let config = engine_state.get_config();
{
let stack = &mut stack.start_capture();
match eval_block::<WithoutDebug>(&engine_state, stack, &block, input) {
Ok(pipeline_data) => match pipeline_data.collect_string("", config) {
Ok(s) => last_output = s,
Err(err) => outcome_err(&engine_state, &err),
},
Err(err) => outcome_err(&engine_state, &err),
}
}
if let Some(cwd) = stack.get_env_var(&engine_state, "PWD") {
let path = cwd
.coerce_str()
.unwrap_or_else(|err| outcome_err(&engine_state, &err));
let _ = std::env::set_current_dir(path.as_ref());
engine_state.add_env_var("PWD".into(), cwd);
}
top_stack = Arc::new(Stack::with_changes_from_child(top_stack, stack));
}
outcome_ok(last_output)
}
fn did_chop_arguments() -> bool {
let args: Vec<String> = args();
if args.len() > 1 {
let mut arguments = args.iter();
arguments.next();
for arg in arguments {
let chopped = if arg.is_empty() {
arg
} else {
let to = arg.len() - 1;
&arg[..to]
};
println!("{chopped}");
}
return true;
}
false
}
pub fn input_bytes_length() {
let stdin = io::stdin();
let count = stdin.lock().bytes().count();
println!("{}", count);
}
fn args() -> Vec<String> {
// skip (--testbin bin_name args)
std::env::args().skip(2).collect()
}
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