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nushell/crates/nu-cli/src/repl.rs
Per Bothner 7a9bf06005
Minor fixes to shell integation in repl. (#5701) 
Added CMD_FINISHED_MARKER to be emitted when command finishes.
Also switched the names PRE_EXECUTE_MARKER and PRE_PROMPT_MARKER
as the old names were confusing/wrong.
2022-06-02 17:57:19 -05:00

533 lines
18 KiB
Rust
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use crate::{
completions::NuCompleter,
prompt_update,
reedline_config::{add_menus, create_keybindings, KeybindingsMode},
util::{eval_source, report_error},
NuHighlighter, NuValidator, NushellPrompt,
};
use log::{info, trace};
use miette::{IntoDiagnostic, Result};
use nu_color_config::get_color_config;
use nu_engine::{convert_env_values, eval_block};
use nu_parser::lex;
use nu_protocol::{
engine::{EngineState, Stack, StateWorkingSet},
BlockId, PipelineData, PositionalArg, ShellError, Span, Value,
};
use reedline::{DefaultHinter, Emacs, Vi};
use std::io::{self, Write};
use std::path::PathBuf;
use std::{sync::atomic::Ordering, time::Instant};
const PRE_PROMPT_MARKER: &str = "\x1b]133;A\x1b\\";
const PRE_EXECUTE_MARKER: &str = "\x1b]133;C\x1b\\";
const CMD_FINISHED_MARKER: &str = "\x1b]133;D\x1b\\";
const RESET_APPLICATION_MODE: &str = "\x1b[?1l";
pub fn evaluate_repl(
engine_state: &mut EngineState,
stack: &mut Stack,
history_path: Option<PathBuf>,
is_perf_true: bool,
) -> Result<()> {
use reedline::{FileBackedHistory, Reedline, Signal};
let mut entry_num = 0;
let mut nu_prompt = NushellPrompt::new();
if is_perf_true {
info!(
"translate environment vars {}:{}:{}",
file!(),
line!(),
column!()
);
}
// Translate environment variables from Strings to Values
if let Some(e) = convert_env_values(engine_state, stack) {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &e);
}
// seed env vars
stack.add_env_var(
"CMD_DURATION_MS".into(),
Value::String {
val: "0823".to_string(),
span: Span { start: 0, end: 0 },
},
);
stack.add_env_var(
"LAST_EXIT_CODE".into(),
Value::Int {
val: 0,
span: Span { start: 0, end: 0 },
},
);
if is_perf_true {
info!(
"load config initially {}:{}:{}",
file!(),
line!(),
column!()
);
}
// Get the config once for the history `max_history_size`
// Updating that will not be possible in one session
let mut config = engine_state.get_config();
if is_perf_true {
info!("setup reedline {}:{}:{}", file!(), line!(), column!());
}
let mut line_editor = Reedline::create();
if let Some(history_path) = history_path.as_deref() {
if is_perf_true {
info!("setup history {}:{}:{}", file!(), line!(), column!());
}
let history = Box::new(
FileBackedHistory::with_file(
config.max_history_size as usize,
history_path.to_path_buf(),
)
.into_diagnostic()?,
);
line_editor = line_editor.with_history(history);
};
loop {
if is_perf_true {
info!(
"load config each loop {}:{}:{}",
file!(),
line!(),
column!()
);
}
//Reset the ctrl-c handler
if let Some(ctrlc) = &mut engine_state.ctrlc {
ctrlc.store(false, Ordering::SeqCst);
}
config = engine_state.get_config();
if is_perf_true {
info!("setup colors {}:{}:{}", file!(), line!(), column!());
}
let color_hm = get_color_config(config);
if is_perf_true {
info!("update reedline {}:{}:{}", file!(), line!(), column!());
}
let engine_reference = std::sync::Arc::new(engine_state.clone());
line_editor = line_editor
.with_highlighter(Box::new(NuHighlighter {
engine_state: engine_state.clone(),
config: config.clone(),
}))
.with_animation(config.animate_prompt)
.with_validator(Box::new(NuValidator {
engine_state: engine_state.clone(),
}))
.with_completer(Box::new(NuCompleter::new(
engine_reference.clone(),
stack.clone(),
)))
.with_quick_completions(config.quick_completions)
.with_partial_completions(config.partial_completions)
.with_ansi_colors(config.use_ansi_coloring);
line_editor = if config.use_ansi_coloring {
line_editor.with_hinter(Box::new(
DefaultHinter::default().with_style(color_hm["hints"]),
))
} else {
line_editor.disable_hints()
};
line_editor = match add_menus(line_editor, engine_reference, stack, config) {
Ok(line_editor) => line_editor,
Err(e) => {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &e);
Reedline::create()
}
};
let buffer_editor = if !config.buffer_editor.is_empty() {
Some(config.buffer_editor.clone())
} else {
stack
.get_env_var(engine_state, "EDITOR")
.map(|v| v.as_string().unwrap_or_default())
.filter(|v| !v.is_empty())
.or_else(|| {
stack
.get_env_var(engine_state, "VISUAL")
.map(|v| v.as_string().unwrap_or_default())
.filter(|v| !v.is_empty())
})
};
line_editor = if let Some(buffer_editor) = buffer_editor {
line_editor.with_buffer_editor(buffer_editor, "nu".into())
} else {
line_editor
};
if config.sync_history_on_enter {
if is_perf_true {
info!("sync history {}:{}:{}", file!(), line!(), column!());
}
line_editor.sync_history().into_diagnostic()?;
}
if is_perf_true {
info!("setup keybindings {}:{}:{}", file!(), line!(), column!());
}
// Changing the line editor based on the found keybindings
line_editor = match create_keybindings(config) {
Ok(keybindings) => match keybindings {
KeybindingsMode::Emacs(keybindings) => {
let edit_mode = Box::new(Emacs::new(keybindings));
line_editor.with_edit_mode(edit_mode)
}
KeybindingsMode::Vi {
insert_keybindings,
normal_keybindings,
} => {
let edit_mode = Box::new(Vi::new(insert_keybindings, normal_keybindings));
line_editor.with_edit_mode(edit_mode)
}
},
Err(e) => {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &e);
line_editor
}
};
if is_perf_true {
info!("prompt_update {}:{}:{}", file!(), line!(), column!());
}
// Right before we start our prompt and take input from the user,
// fire the "pre_prompt" hook
if let Some(hook) = &config.hooks.pre_prompt {
if let Err(err) = run_hook(engine_state, stack, vec![], hook) {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &err);
}
}
// Next, check all the environment variables they ask for
// fire the "env_change" hook
if let Some(hook) = config.hooks.env_change.clone() {
match hook {
Value::Record {
cols, vals: blocks, ..
} => {
for (idx, env_var) in cols.iter().enumerate() {
let before = engine_state
.previous_env_vars
.get(env_var)
.cloned()
.unwrap_or_default();
let after = stack.get_env_var(engine_state, env_var).unwrap_or_default();
if before != after {
if let Err(err) = run_hook(
engine_state,
stack,
vec![before, after.clone()],
&blocks[idx],
) {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &err);
}
engine_state
.previous_env_vars
.insert(env_var.to_string(), after);
}
}
}
x => {
let working_set = StateWorkingSet::new(engine_state);
report_error(
&working_set,
&ShellError::TypeMismatch(
"record for 'env_change' hook".to_string(),
x.span().unwrap_or_else(|_| Span::new(0, 0)),
),
)
}
}
}
config = engine_state.get_config();
let shell_integration = config.shell_integration;
if shell_integration {
run_ansi_sequence(PRE_PROMPT_MARKER)?;
}
let prompt =
prompt_update::update_prompt(config, engine_state, stack, &mut nu_prompt, is_perf_true);
entry_num += 1;
if is_perf_true {
info!(
"finished setup, starting repl {}:{}:{}",
file!(),
line!(),
column!()
);
}
let input = line_editor.read_line(prompt);
match input {
Ok(Signal::Success(s)) => {
// Right before we start running the code the user gave us,
// fire the "pre_execution" hook
if let Some(hook) = &config.hooks.pre_execution {
if let Err(err) = run_hook(engine_state, stack, vec![], hook) {
let working_set = StateWorkingSet::new(engine_state);
report_error(&working_set, &err);
}
}
if shell_integration {
run_ansi_sequence(RESET_APPLICATION_MODE)?;
run_ansi_sequence(PRE_EXECUTE_MARKER)?;
if let Some(cwd) = stack.get_env_var(engine_state, "PWD") {
let path = cwd.as_string()?;
// Try to abbreviate string for windows title
let maybe_abbrev_path = if let Some(p) = nu_path::home_dir() {
path.replace(&p.as_path().display().to_string(), "~")
} else {
path
};
// Set window title too
// https://tldp.org/HOWTO/Xterm-Title-3.html
// ESC]0;stringBEL -- Set icon name and window title to string
// ESC]1;stringBEL -- Set icon name to string
// ESC]2;stringBEL -- Set window title to string
run_ansi_sequence(&format!("\x1b]2;{}\x07", maybe_abbrev_path))?;
}
}
let start_time = Instant::now();
let tokens = lex(s.as_bytes(), 0, &[], &[], false);
// Check if this is a single call to a directory, if so auto-cd
let cwd = nu_engine::env::current_dir_str(engine_state, stack)?;
let path = nu_path::expand_path_with(&s, &cwd);
let orig = s.clone();
if (orig.starts_with('.')
|| orig.starts_with('~')
|| orig.starts_with('/')
|| orig.starts_with('\\'))
&& path.is_dir()
&& tokens.0.len() == 1
{
// We have an auto-cd
let (path, span) = {
if !path.exists() {
let working_set = StateWorkingSet::new(engine_state);
report_error(
&working_set,
&ShellError::DirectoryNotFound(tokens.0[0].span, None),
);
}
let path = nu_path::canonicalize_with(path, &cwd)
.expect("internal error: cannot canonicalize known path");
(path.to_string_lossy().to_string(), tokens.0[0].span)
};
//FIXME: this only changes the current scope, but instead this environment variable
//should probably be a block that loads the information from the state in the overlay
stack.add_env_var(
"PWD".into(),
Value::String {
val: path.clone(),
span: Span { start: 0, end: 0 },
},
);
let cwd = Value::String { val: cwd, span };
let shells = stack.get_env_var(engine_state, "NUSHELL_SHELLS");
let mut shells = if let Some(v) = shells {
v.as_list()
.map(|x| x.to_vec())
.unwrap_or_else(|_| vec![cwd])
} else {
vec![cwd]
};
let current_shell = stack.get_env_var(engine_state, "NUSHELL_CURRENT_SHELL");
let current_shell = if let Some(v) = current_shell {
v.as_integer().unwrap_or_default() as usize
} else {
0
};
shells[current_shell] = Value::String { val: path, span };
stack.add_env_var("NUSHELL_SHELLS".into(), Value::List { vals: shells, span });
} else {
trace!("eval source: {}", s);
eval_source(
engine_state,
stack,
s.as_bytes(),
&format!("entry #{}", entry_num),
PipelineData::new(Span::new(0, 0)),
);
}
stack.add_env_var(
"CMD_DURATION_MS".into(),
Value::String {
val: format!("{}", start_time.elapsed().as_millis()),
span: Span { start: 0, end: 0 },
},
);
// FIXME: permanent state changes like this hopefully in time can be removed
// and be replaced by just passing the cwd in where needed
if let Some(cwd) = stack.get_env_var(engine_state, "PWD") {
let path = cwd.as_string()?;
let _ = std::env::set_current_dir(path);
engine_state.add_env_var("PWD".into(), cwd);
}
if shell_integration {
// FIXME: use variant with exit code, if apropriate
run_ansi_sequence(CMD_FINISHED_MARKER)?;
}
}
Ok(Signal::CtrlC) => {
// `Reedline` clears the line content. New prompt is shown
if shell_integration {
run_ansi_sequence(CMD_FINISHED_MARKER)?;
}
}
Ok(Signal::CtrlD) => {
// When exiting clear to a new line
if shell_integration {
run_ansi_sequence(CMD_FINISHED_MARKER)?;
}
println!();
break;
}
Err(err) => {
let message = err.to_string();
if !message.contains("duration") {
println!("Error: {:?}", err);
}
if shell_integration {
run_ansi_sequence(CMD_FINISHED_MARKER)?;
}
}
}
}
Ok(())
}
fn run_ansi_sequence(seq: &str) -> Result<(), ShellError> {
match io::stdout().write_all(seq.as_bytes()) {
Ok(it) => it,
Err(err) => {
return Err(ShellError::GenericError(
"Error writing ansi sequence".into(),
err.to_string(),
Some(Span { start: 0, end: 0 }),
None,
Vec::new(),
));
}
};
io::stdout().flush().map_err(|e| {
ShellError::GenericError(
"Error flushing stdio".into(),
e.to_string(),
Some(Span { start: 0, end: 0 }),
None,
Vec::new(),
)
})
}
pub fn run_hook(
engine_state: &EngineState,
stack: &mut Stack,
arguments: Vec<Value>,
value: &Value,
) -> Result<(), ShellError> {
match value {
Value::List { vals, .. } => {
for val in vals {
run_hook(engine_state, stack, arguments.clone(), val)?
}
Ok(())
}
Value::Block {
val: block_id,
span,
..
} => run_hook_block(engine_state, stack, *block_id, arguments, *span),
x => match x.span() {
Ok(span) => Err(ShellError::MissingConfigValue(
"block for hook in config".into(),
span,
)),
_ => Err(ShellError::MissingConfigValue(
"block for hook in config".into(),
Span { start: 0, end: 0 },
)),
},
}
}
pub fn run_hook_block(
engine_state: &EngineState,
stack: &mut Stack,
block_id: BlockId,
arguments: Vec<Value>,
span: Span,
) -> Result<(), ShellError> {
let block = engine_state.get_block(block_id);
let input = PipelineData::new(span);
let mut callee_stack = stack.gather_captures(&block.captures);
for (idx, PositionalArg { var_id, .. }) in
block.signature.required_positional.iter().enumerate()
{
if let Some(var_id) = var_id {
callee_stack.add_var(*var_id, arguments[idx].clone())
}
}
match eval_block(engine_state, &mut callee_stack, block, input, false, false) {
Ok(pipeline_data) => match pipeline_data.into_value(span) {
Value::Error { error } => Err(error),
_ => Ok(()),
},
Err(err) => Err(err),
}
}
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