Enable reloading changes to a submodule (#13170)

# Description

Fixes: https://github.com/nushell/nushell/issues/12099

Currently if user run `use voice.nu`, and file is unchanged, then run
`use voice.nu` again. nushell will use the module directly, even if
submodule inside `voice.nu` is changed.

After discussed with @kubouch, I think it's ok to re-parse the module
file when:
1. It exports sub modules which are defined by a file
2. It uses other modules which are defined by a file

## About the change:
To achieve the behavior, we need to add 2 attributes to `Module`:
1. `imported_modules`: it tracks the other modules is imported by the
givem `module`, e.g: `use foo.nu`
2. `file`: the path of a module, if a module is defined by a file, it
will be `Some(path)`, or else it will be `None`.

After the change:

    use voice.nu always read the file and parse it.
    use voice will still use the module which is saved in EngineState.

# User-Facing Changes

use `xxx.nu` will read the file and parse it if it exports submodules or
uses submodules

# Tests + Formatting

Done

---------

Co-authored-by: Jakub Žádník <kubouch@gmail.com>
This commit is contained in:
Wind 2024-06-26 09:33:37 +08:00 committed by GitHub
parent 55ee476306
commit def36865ef
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
7 changed files with 258 additions and 17 deletions

View file

@ -8,7 +8,6 @@ mod parse_keywords;
mod parse_patterns;
mod parse_shape_specs;
mod parser;
mod parser_path;
mod type_check;
pub use deparse::{escape_for_script_arg, escape_quote_string};
@ -18,8 +17,8 @@ pub use flatten::{
pub use known_external::KnownExternal;
pub use lex::{lex, lex_signature, Token, TokenContents};
pub use lite_parser::{lite_parse, LiteBlock, LiteCommand};
pub use nu_protocol::parser_path::*;
pub use parse_keywords::*;
pub use parser_path::*;
pub use parser::{
is_math_expression_like, parse, parse_block, parse_expression, parse_external_call,

View file

@ -2,7 +2,6 @@ use crate::{
exportable::Exportable,
parse_block,
parser::{parse_redirection, redirecting_builtin_error},
parser_path::ParserPath,
type_check::{check_block_input_output, type_compatible},
};
use itertools::Itertools;
@ -15,6 +14,7 @@ use nu_protocol::{
},
engine::{StateWorkingSet, DEFAULT_OVERLAY_NAME},
eval_const::eval_constant,
parser_path::ParserPath,
Alias, BlockId, DeclId, Module, ModuleId, ParseError, PositionalArg, ResolvedImportPattern,
Span, Spanned, SyntaxShape, Type, Value, VarId,
};
@ -1204,7 +1204,7 @@ pub fn parse_export_in_block(
"export alias" => parse_alias(working_set, lite_command, None),
"export def" => parse_def(working_set, lite_command, None).0,
"export const" => parse_const(working_set, &lite_command.parts[1..]),
"export use" => parse_use(working_set, lite_command).0,
"export use" => parse_use(working_set, lite_command, None).0,
"export module" => parse_module(working_set, lite_command, None).0,
"export extern" => parse_extern(working_set, lite_command, None),
_ => {
@ -1223,6 +1223,7 @@ pub fn parse_export_in_module(
working_set: &mut StateWorkingSet,
lite_command: &LiteCommand,
module_name: &[u8],
parent_module: &mut Module,
) -> (Pipeline, Vec<Exportable>) {
let spans = &lite_command.parts[..];
@ -1428,7 +1429,8 @@ pub fn parse_export_in_module(
pipe: lite_command.pipe,
redirection: lite_command.redirection.clone(),
};
let (pipeline, exportables) = parse_use(working_set, &lite_command);
let (pipeline, exportables) =
parse_use(working_set, &lite_command, Some(parent_module));
let export_use_decl_id = if let Some(id) = working_set.find_decl(b"export use") {
id
@ -1771,7 +1773,7 @@ pub fn parse_module_block(
))
}
b"use" => {
let (pipeline, _) = parse_use(working_set, command);
let (pipeline, _) = parse_use(working_set, command, Some(&mut module));
block.pipelines.push(pipeline)
}
@ -1786,7 +1788,7 @@ pub fn parse_module_block(
}
b"export" => {
let (pipe, exportables) =
parse_export_in_module(working_set, command, module_name);
parse_export_in_module(working_set, command, module_name, &mut module);
for exportable in exportables {
match exportable {
@ -1896,6 +1898,48 @@ pub fn parse_module_block(
(block, module, module_comments)
}
fn module_needs_reloading(working_set: &StateWorkingSet, module_id: ModuleId) -> bool {
let module = working_set.get_module(module_id);
fn submodule_need_reloading(working_set: &StateWorkingSet, submodule_id: ModuleId) -> bool {
let submodule = working_set.get_module(submodule_id);
let submodule_changed = if let Some((file_path, file_id)) = &submodule.file {
let existing_contents = working_set.get_contents_of_file(*file_id);
let file_contents = file_path.read(working_set);
if let (Some(existing), Some(new)) = (existing_contents, file_contents) {
existing != new
} else {
false
}
} else {
false
};
if submodule_changed {
true
} else {
module_needs_reloading(working_set, submodule_id)
}
}
let export_submodule_changed = module
.submodules
.iter()
.any(|(_, submodule_id)| submodule_need_reloading(working_set, *submodule_id));
if export_submodule_changed {
return true;
}
let private_submodule_changed = module
.imported_modules
.iter()
.any(|submodule_id| submodule_need_reloading(working_set, *submodule_id));
private_submodule_changed
}
/// Parse a module from a file.
///
/// The module name is inferred from the stem of the file, unless specified in `name_override`.
@ -1934,23 +1978,26 @@ fn parse_module_file(
// Check if we've parsed the module before.
if let Some(module_id) = working_set.find_module_by_span(new_span) {
return Some(module_id);
if !module_needs_reloading(working_set, module_id) {
return Some(module_id);
}
}
// Add the file to the stack of files being processed.
if let Err(e) = working_set.files.push(path.path_buf(), path_span) {
if let Err(e) = working_set.files.push(path.clone().path_buf(), path_span) {
working_set.error(e);
return None;
}
// Parse the module
let (block, module, module_comments) =
let (block, mut module, module_comments) =
parse_module_block(working_set, new_span, module_name.as_bytes());
// Remove the file from the stack of files being processed.
working_set.files.pop();
let _ = working_set.add_block(Arc::new(block));
module.file = Some((path, file_id));
let module_id = working_set.add_module(&module_name, module, module_comments);
Some(module_id)
@ -2240,6 +2287,7 @@ pub fn parse_module(
pub fn parse_use(
working_set: &mut StateWorkingSet,
lite_command: &LiteCommand,
parent_module: Option<&mut Module>,
) -> (Pipeline, Vec<Exportable>) {
let spans = &lite_command.parts;
@ -2385,12 +2433,14 @@ pub fn parse_use(
);
};
let mut imported_modules = vec![];
let (definitions, errors) = module.resolve_import_pattern(
working_set,
module_id,
&import_pattern.members,
None,
name_span,
&mut imported_modules,
);
working_set.parse_errors.extend(errors);
@ -2432,6 +2482,9 @@ pub fn parse_use(
import_pattern.constants = constants.iter().map(|(_, id)| *id).collect();
if let Some(m) = parent_module {
m.track_imported_modules(&imported_modules)
}
// Extend the current scope with the module's exportables
working_set.use_decls(definitions.decls);
working_set.use_modules(definitions.modules);
@ -2865,6 +2918,7 @@ pub fn parse_overlay_use(working_set: &mut StateWorkingSet, call: Box<Call>) ->
&[],
Some(final_overlay_name.as_bytes()),
call.head,
&mut vec![],
)
} else {
origin_module.resolve_import_pattern(
@ -2875,6 +2929,7 @@ pub fn parse_overlay_use(working_set: &mut StateWorkingSet, call: Box<Call>) ->
}],
Some(final_overlay_name.as_bytes()),
call.head,
&mut vec![],
)
}
} else {

View file

@ -5377,7 +5377,7 @@ pub fn parse_builtin_commands(
}
b"alias" => parse_alias(working_set, lite_command, None),
b"module" => parse_module(working_set, lite_command, None).0,
b"use" => parse_use(working_set, lite_command).0,
b"use" => parse_use(working_set, lite_command, None).0,
b"overlay" => {
if let Some(redirection) = lite_command.redirection.as_ref() {
working_set.error(redirecting_builtin_error("overlay", redirection));

View file

@ -11,6 +11,7 @@ mod example;
mod id;
mod lev_distance;
mod module;
pub mod parser_path;
mod pipeline;
#[cfg(feature = "plugin")]
mod plugin;

View file

@ -1,8 +1,9 @@
use crate::{
ast::ImportPatternMember, engine::StateWorkingSet, BlockId, DeclId, ModuleId, ParseError, Span,
Value, VarId,
ast::ImportPatternMember, engine::StateWorkingSet, BlockId, DeclId, FileId, ModuleId,
ParseError, Span, Value, VarId,
};
use crate::parser_path::ParserPath;
use indexmap::IndexMap;
pub struct ResolvedImportPattern {
@ -35,6 +36,8 @@ pub struct Module {
pub env_block: Option<BlockId>, // `export-env { ... }` block
pub main: Option<DeclId>, // `export def main`
pub span: Option<Span>,
pub imported_modules: Vec<ModuleId>, // use other_module.nu
pub file: Option<(ParserPath, FileId)>,
}
impl Module {
@ -47,6 +50,8 @@ impl Module {
env_block: None,
main: None,
span: None,
imported_modules: vec![],
file: None,
}
}
@ -59,6 +64,8 @@ impl Module {
env_block: None,
main: None,
span: Some(span),
imported_modules: vec![],
file: None,
}
}
@ -82,6 +89,12 @@ impl Module {
self.env_block = Some(block_id);
}
pub fn track_imported_modules(&mut self, module_id: &[ModuleId]) {
for m in module_id {
self.imported_modules.push(*m)
}
}
pub fn has_decl(&self, name: &[u8]) -> bool {
if name == self.name && self.main.is_some() {
return true;
@ -90,6 +103,9 @@ impl Module {
self.decls.contains_key(name)
}
/// Resolve `members` from given module, which is indicated by `self_id` to import.
///
/// When resolving, all modules are recorded in `imported_modules`.
pub fn resolve_import_pattern(
&self,
working_set: &StateWorkingSet,
@ -97,7 +113,9 @@ impl Module {
members: &[ImportPatternMember],
name_override: Option<&[u8]>, // name under the module was stored (doesn't have to be the same as self.name)
backup_span: Span,
imported_modules: &mut Vec<ModuleId>,
) -> (ResolvedImportPattern, Vec<ParseError>) {
imported_modules.push(self_id);
let final_name = name_override.unwrap_or(&self.name).to_vec();
let (head, rest) = if let Some((head, rest)) = members.split_first() {
@ -112,8 +130,14 @@ impl Module {
let submodule = working_set.get_module(*id);
let span = submodule.span.or(self.span).unwrap_or(backup_span);
let (sub_results, sub_errors) =
submodule.resolve_import_pattern(working_set, *id, &[], None, span);
let (sub_results, sub_errors) = submodule.resolve_import_pattern(
working_set,
*id,
&[],
None,
span,
imported_modules,
);
errors.extend(sub_errors);
for (sub_name, sub_decl_id) in sub_results.decls {
@ -212,6 +236,7 @@ impl Module {
rest,
None,
self.span.unwrap_or(backup_span),
imported_modules,
)
} else {
(
@ -234,6 +259,7 @@ impl Module {
&[],
None,
self.span.unwrap_or(backup_span),
imported_modules,
);
decls.extend(sub_results.decls);
@ -287,6 +313,7 @@ impl Module {
rest,
None,
self.span.unwrap_or(backup_span),
imported_modules,
);
decls.extend(sub_results.decls);

View file

@ -1,4 +1,4 @@
use nu_protocol::engine::{StateWorkingSet, VirtualPath};
use crate::engine::{StateWorkingSet, VirtualPath};
use std::{
ffi::OsStr,
path::{Path, PathBuf},

View file

@ -1,4 +1,4 @@
use nu_test_support::fs::Stub::FileWithContentToBeTrimmed;
use nu_test_support::fs::Stub::{FileWithContent, FileWithContentToBeTrimmed};
use nu_test_support::playground::Playground;
use nu_test_support::{nu, nu_repl_code};
use pretty_assertions::assert_eq;
@ -760,3 +760,162 @@ fn nested_list_export_works() {
let actual = nu!(&inp.join("; "));
assert_eq!(actual.out, "bacon");
}
#[test]
fn reload_submodules() {
Playground::setup("reload_submodule_changed_file", |dirs, sandbox| {
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export module animals.nu"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
// should also verify something unchanged if `use voice`.
let inp = [
"use voice.nu",
r#""export def cat [] {'meow'}" | save -f animals.nu"#,
"use voice",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
// should also works if we use members directly.
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export module animals.nu"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu animals cat",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu animals cat",
"(cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
});
}
#[test]
fn use_submodules() {
Playground::setup("use_submodules", |dirs, sandbox| {
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
// should also verify something unchanged if `use voice`.
let inp = [
"use voice.nu",
r#""export def cat [] {'meow'}" | save -f animals.nu"#,
"use voice",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
// also verify something is changed when using members.
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu cat"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu",
"(voice cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu *"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu",
"(voice cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu [cat]"#),
FileWithContent("animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f animals.nu"#,
"use voice.nu",
"(voice cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
});
}
#[test]
fn use_nested_submodules() {
Playground::setup("use_submodules", |dirs, sandbox| {
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu"#),
FileWithContent("animals.nu", r#"export use nested_animals.nu"#),
FileWithContent("nested_animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f nested_animals.nu"#,
"use voice.nu",
"(voice animals nested_animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
sandbox.with_files(&[
FileWithContent("voice.nu", r#"export use animals.nu"#),
FileWithContent("animals.nu", r#"export use nested_animals.nu cat"#),
FileWithContent("nested_animals.nu", "export def cat [] { 'meow'}"),
]);
let inp = [
"use voice.nu",
r#""export def cat [] {'woem'}" | save -f nested_animals.nu"#,
"use voice.nu",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
sandbox.with_files(&[
FileWithContent("animals.nu", r#"export use nested_animals.nu cat"#),
FileWithContent("nested_animals.nu", "export def cat [] { 'meow' }"),
]);
let inp = [
"module voice { export module animals.nu }",
"use voice",
r#""export def cat [] {'woem'}" | save -f nested_animals.nu"#,
"use voice.nu",
"(voice animals cat) == 'woem'",
];
let actual = nu!(cwd: dirs.test(), nu_repl_code(&inp));
assert_eq!(actual.out, "true");
})
}