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module.rs
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module.rs
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use super::{Parser, PResult};
use super::item::ItemInfo;
use super::diagnostics::Error;
use crate::attr;
use crate::ast::{self, Ident, Attribute, ItemKind, Mod, Crate};
use crate::parse::{new_sub_parser_from_file, DirectoryOwnership};
use crate::parse::token::{self, TokenKind};
use crate::source_map::{SourceMap, Span, DUMMY_SP, FileName};
use crate::symbol::sym;
use std::path::{self, Path, PathBuf};
/// Information about the path to a module.
pub(super) struct ModulePath {
name: String,
path_exists: bool,
pub result: Result<ModulePathSuccess, Error>,
}
pub(super) struct ModulePathSuccess {
pub path: PathBuf,
pub directory_ownership: DirectoryOwnership,
warn: bool,
}
impl<'a> Parser<'a> {
/// Parses a source module as a crate. This is the main entry point for the parser.
pub fn parse_crate_mod(&mut self) -> PResult<'a, Crate> {
let lo = self.token.span;
let krate = Ok(ast::Crate {
attrs: self.parse_inner_attributes()?,
module: self.parse_mod_items(&token::Eof, lo)?,
span: lo.to(self.token.span),
});
krate
}
/// Parses a `mod <foo> { ... }` or `mod <foo>;` item.
pub(super) fn parse_item_mod(&mut self, outer_attrs: &[Attribute]) -> PResult<'a, ItemInfo> {
let (in_cfg, outer_attrs) = {
// FIXME(Centril): This results in a cycle between config and parsing.
// Consider using dynamic dispatch via `self.sess` to disentangle the knot.
let mut strip_unconfigured = crate::config::StripUnconfigured {
sess: self.sess,
features: None, // Don't perform gated feature checking.
};
let mut outer_attrs = outer_attrs.to_owned();
strip_unconfigured.process_cfg_attrs(&mut outer_attrs);
(!self.cfg_mods || strip_unconfigured.in_cfg(&outer_attrs), outer_attrs)
};
let id_span = self.token.span;
let id = self.parse_ident()?;
if self.eat(&token::Semi) {
if in_cfg && self.recurse_into_file_modules {
// This mod is in an external file. Let's go get it!
let ModulePathSuccess { path, directory_ownership, warn } =
self.submod_path(id, &outer_attrs, id_span)?;
let (module, mut attrs) =
self.eval_src_mod(path, directory_ownership, id.to_string(), id_span)?;
// Record that we fetched the mod from an external file.
if warn {
let attr = attr::mk_attr_outer(
attr::mk_word_item(Ident::with_dummy_span(sym::warn_directory_ownership)));
attr::mark_known(&attr);
attrs.push(attr);
}
Ok((id, ItemKind::Mod(module), Some(attrs)))
} else {
let placeholder = ast::Mod {
inner: DUMMY_SP,
items: Vec::new(),
inline: false
};
Ok((id, ItemKind::Mod(placeholder), None))
}
} else {
let old_directory = self.directory.clone();
self.push_directory(id, &outer_attrs);
self.expect(&token::OpenDelim(token::Brace))?;
let mod_inner_lo = self.token.span;
let attrs = self.parse_inner_attributes()?;
let module = self.parse_mod_items(&token::CloseDelim(token::Brace), mod_inner_lo)?;
self.directory = old_directory;
Ok((id, ItemKind::Mod(module), Some(attrs)))
}
}
/// Given a termination token, parses all of the items in a module.
fn parse_mod_items(&mut self, term: &TokenKind, inner_lo: Span) -> PResult<'a, Mod> {
let mut items = vec![];
while let Some(item) = self.parse_item()? {
items.push(item);
self.maybe_consume_incorrect_semicolon(&items);
}
if !self.eat(term) {
let token_str = self.this_token_descr();
if !self.maybe_consume_incorrect_semicolon(&items) {
let mut err = self.fatal(&format!("expected item, found {}", token_str));
err.span_label(self.token.span, "expected item");
return Err(err);
}
}
let hi = if self.token.span.is_dummy() {
inner_lo
} else {
self.prev_span
};
Ok(Mod {
inner: inner_lo.to(hi),
items,
inline: true
})
}
fn submod_path(
&mut self,
id: ast::Ident,
outer_attrs: &[Attribute],
id_sp: Span
) -> PResult<'a, ModulePathSuccess> {
if let Some(path) = Parser::submod_path_from_attr(outer_attrs, &self.directory.path) {
return Ok(ModulePathSuccess {
directory_ownership: match path.file_name().and_then(|s| s.to_str()) {
// All `#[path]` files are treated as though they are a `mod.rs` file.
// This means that `mod foo;` declarations inside `#[path]`-included
// files are siblings,
//
// Note that this will produce weirdness when a file named `foo.rs` is
// `#[path]` included and contains a `mod foo;` declaration.
// If you encounter this, it's your own darn fault :P
Some(_) => DirectoryOwnership::Owned { relative: None },
_ => DirectoryOwnership::UnownedViaMod(true),
},
path,
warn: false,
});
}
let relative = match self.directory.ownership {
DirectoryOwnership::Owned { relative } => relative,
DirectoryOwnership::UnownedViaBlock |
DirectoryOwnership::UnownedViaMod(_) => None,
};
let paths = Parser::default_submod_path(
id, relative, &self.directory.path, self.sess.source_map());
match self.directory.ownership {
DirectoryOwnership::Owned { .. } => {
paths.result.map_err(|err| self.span_fatal_err(id_sp, err))
},
DirectoryOwnership::UnownedViaBlock => {
let msg =
"Cannot declare a non-inline module inside a block \
unless it has a path attribute";
let mut err = self.diagnostic().struct_span_err(id_sp, msg);
if paths.path_exists {
let msg = format!("Maybe `use` the module `{}` instead of redeclaring it",
paths.name);
err.span_note(id_sp, &msg);
}
Err(err)
}
DirectoryOwnership::UnownedViaMod(warn) => {
if warn {
if let Ok(result) = paths.result {
return Ok(ModulePathSuccess { warn: true, ..result });
}
}
let mut err = self.diagnostic().struct_span_err(id_sp,
"cannot declare a new module at this location");
if !id_sp.is_dummy() {
let src_path = self.sess.source_map().span_to_filename(id_sp);
if let FileName::Real(src_path) = src_path {
if let Some(stem) = src_path.file_stem() {
let mut dest_path = src_path.clone();
dest_path.set_file_name(stem);
dest_path.push("mod.rs");
err.span_note(id_sp,
&format!("maybe move this module `{}` to its own \
directory via `{}`", src_path.display(),
dest_path.display()));
}
}
}
if paths.path_exists {
err.span_note(id_sp,
&format!("... or maybe `use` the module `{}` instead \
of possibly redeclaring it",
paths.name));
}
Err(err)
}
}
}
pub(super) fn submod_path_from_attr(attrs: &[Attribute], dir_path: &Path) -> Option<PathBuf> {
if let Some(s) = attr::first_attr_value_str_by_name(attrs, sym::path) {
let s = s.as_str();
// On windows, the base path might have the form
// `\\?\foo\bar` in which case it does not tolerate
// mixed `/` and `\` separators, so canonicalize
// `/` to `\`.
#[cfg(windows)]
let s = s.replace("/", "\\");
Some(dir_path.join(s))
} else {
None
}
}
/// Returns a path to a module.
pub(super) fn default_submod_path(
id: ast::Ident,
relative: Option<ast::Ident>,
dir_path: &Path,
source_map: &SourceMap) -> ModulePath
{
// If we're in a foo.rs file instead of a mod.rs file,
// we need to look for submodules in
// `./foo/<id>.rs` and `./foo/<id>/mod.rs` rather than
// `./<id>.rs` and `./<id>/mod.rs`.
let relative_prefix_string;
let relative_prefix = if let Some(ident) = relative {
relative_prefix_string = format!("{}{}", ident.as_str(), path::MAIN_SEPARATOR);
&relative_prefix_string
} else {
""
};
let mod_name = id.to_string();
let default_path_str = format!("{}{}.rs", relative_prefix, mod_name);
let secondary_path_str = format!("{}{}{}mod.rs",
relative_prefix, mod_name, path::MAIN_SEPARATOR);
let default_path = dir_path.join(&default_path_str);
let secondary_path = dir_path.join(&secondary_path_str);
let default_exists = source_map.file_exists(&default_path);
let secondary_exists = source_map.file_exists(&secondary_path);
let result = match (default_exists, secondary_exists) {
(true, false) => Ok(ModulePathSuccess {
path: default_path,
directory_ownership: DirectoryOwnership::Owned {
relative: Some(id),
},
warn: false,
}),
(false, true) => Ok(ModulePathSuccess {
path: secondary_path,
directory_ownership: DirectoryOwnership::Owned {
relative: None,
},
warn: false,
}),
(false, false) => Err(Error::FileNotFoundForModule {
mod_name: mod_name.clone(),
default_path: default_path_str,
secondary_path: secondary_path_str,
dir_path: dir_path.display().to_string(),
}),
(true, true) => Err(Error::DuplicatePaths {
mod_name: mod_name.clone(),
default_path: default_path_str,
secondary_path: secondary_path_str,
}),
};
ModulePath {
name: mod_name,
path_exists: default_exists || secondary_exists,
result,
}
}
/// Reads a module from a source file.
fn eval_src_mod(
&mut self,
path: PathBuf,
directory_ownership: DirectoryOwnership,
name: String,
id_sp: Span,
) -> PResult<'a, (Mod, Vec<Attribute>)> {
let mut included_mod_stack = self.sess.included_mod_stack.borrow_mut();
if let Some(i) = included_mod_stack.iter().position(|p| *p == path) {
let mut err = String::from("circular modules: ");
let len = included_mod_stack.len();
for p in &included_mod_stack[i.. len] {
err.push_str(&p.to_string_lossy());
err.push_str(" -> ");
}
err.push_str(&path.to_string_lossy());
return Err(self.span_fatal(id_sp, &err[..]));
}
included_mod_stack.push(path.clone());
drop(included_mod_stack);
let mut p0 =
new_sub_parser_from_file(self.sess, &path, directory_ownership, Some(name), id_sp);
p0.cfg_mods = self.cfg_mods;
let mod_inner_lo = p0.token.span;
let mod_attrs = p0.parse_inner_attributes()?;
let mut m0 = p0.parse_mod_items(&token::Eof, mod_inner_lo)?;
m0.inline = false;
self.sess.included_mod_stack.borrow_mut().pop();
Ok((m0, mod_attrs))
}
fn push_directory(&mut self, id: Ident, attrs: &[Attribute]) {
if let Some(path) = attr::first_attr_value_str_by_name(attrs, sym::path) {
self.directory.path.to_mut().push(&path.as_str());
self.directory.ownership = DirectoryOwnership::Owned { relative: None };
} else {
// We have to push on the current module name in the case of relative
// paths in order to ensure that any additional module paths from inline
// `mod x { ... }` come after the relative extension.
//
// For example, a `mod z { ... }` inside `x/y.rs` should set the current
// directory path to `/x/y/z`, not `/x/z` with a relative offset of `y`.
if let DirectoryOwnership::Owned { relative } = &mut self.directory.ownership {
if let Some(ident) = relative.take() { // remove the relative offset
self.directory.path.to_mut().push(ident.as_str());
}
}
self.directory.path.to_mut().push(&id.as_str());
}
}
}