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fuchsia / third_party / rust / 346aec9b02f3c74f3fce97fd6bda24709d220e49 / . / src / librustc_session / config.rs
blob: c5a866817cb4a1930a5b085f22f32d11d50212c2 [file] [log] [blame]
//! Contains infrastructure for configuring the compiler, including parsing
//! command-line options.
pub use crate::options::*;
use crate::lint;
use crate::search_paths::SearchPath;
use crate::utils::NativeLibKind;
use crate::{early_error, early_warn, Session};
use rustc_data_structures::fx::FxHashSet;
use rustc_data_structures::impl_stable_hash_via_hash;
use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
use rustc_target::spec::{Target, TargetTriple};
use crate::parse::CrateConfig;
use rustc_feature::UnstableFeatures;
use rustc_span::edition::{Edition, DEFAULT_EDITION, EDITION_NAME_LIST};
use rustc_span::source_map::{FileName, FilePathMapping};
use rustc_span::symbol::{sym, Symbol};
use rustc_span::SourceFileHashAlgorithm;
use rustc_errors::emitter::HumanReadableErrorType;
use rustc_errors::{ColorConfig, HandlerFlags};
use std::collections::btree_map::{
Iter as BTreeMapIter, Keys as BTreeMapKeysIter, Values as BTreeMapValuesIter,
};
use std::collections::{BTreeMap, BTreeSet};
use std::fmt;
use std::iter::{self, FromIterator};
use std::path::{Path, PathBuf};
use std::str::{self, FromStr};
pub struct Config {
pub target: Target,
pub ptr_width: u32,
}
bitflags! {
#[derive(Default, RustcEncodable, RustcDecodable)]
pub struct SanitizerSet: u8 {
const ADDRESS = 1 << 0;
const LEAK = 1 << 1;
const MEMORY = 1 << 2;
const THREAD = 1 << 3;
}
}
/// Formats a sanitizer set as a comma separated list of sanitizers' names.
impl fmt::Display for SanitizerSet {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let mut first = true;
for s in *self {
let name = match s {
SanitizerSet::ADDRESS => "address",
SanitizerSet::LEAK => "leak",
SanitizerSet::MEMORY => "memory",
SanitizerSet::THREAD => "thread",
_ => panic!("unrecognized sanitizer {:?}", s),
};
if !first {
f.write_str(",")?;
}
f.write_str(name)?;
first = false;
}
Ok(())
}
}
impl IntoIterator for SanitizerSet {
type Item = SanitizerSet;
type IntoIter = std::vec::IntoIter<SanitizerSet>;
fn into_iter(self) -> Self::IntoIter {
[SanitizerSet::ADDRESS, SanitizerSet::LEAK, SanitizerSet::MEMORY, SanitizerSet::THREAD]
.iter()
.copied()
.filter(|&s| self.contains(s))
.collect::<Vec<_>>()
.into_iter()
}
}
impl<CTX> HashStable<CTX> for SanitizerSet {
fn hash_stable(&self, ctx: &mut CTX, hasher: &mut StableHasher) {
self.bits().hash_stable(ctx, hasher);
}
}
/// The different settings that the `-Z strip` flag can have.
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum Strip {
/// Do not strip at all.
None,
/// Strip debuginfo.
Debuginfo,
/// Strip all symbols.
Symbols,
}
/// The different settings that the `-Z control-flow-guard` flag can have.
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum CFGuard {
/// Do not emit Control Flow Guard metadata or checks.
Disabled,
/// Emit Control Flow Guard metadata but no checks.
NoChecks,
/// Emit Control Flow Guard metadata and checks.
Checks,
}
#[derive(Clone, Copy, Debug, PartialEq, Hash)]
pub enum OptLevel {
No, // -O0
Less, // -O1
Default, // -O2
Aggressive, // -O3
Size, // -Os
SizeMin, // -Oz
}
impl_stable_hash_via_hash!(OptLevel);
/// This is what the `LtoCli` values get mapped to after resolving defaults and
/// and taking other command line options into account.
#[derive(Clone, PartialEq)]
pub enum Lto {
/// Don't do any LTO whatsoever
No,
/// Do a full crate graph LTO with ThinLTO
Thin,
/// Do a local graph LTO with ThinLTO (only relevant for multiple codegen
/// units).
ThinLocal,
/// Do a full crate graph LTO with "fat" LTO
Fat,
}
/// The different settings that the `-C lto` flag can have.
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum LtoCli {
/// `-C lto=no`
No,
/// `-C lto=yes`
Yes,
/// `-C lto`
NoParam,
/// `-C lto=thin`
Thin,
/// `-C lto=fat`
Fat,
/// No `-C lto` flag passed
Unspecified,
}
#[derive(Clone, PartialEq, Hash)]
pub enum LinkerPluginLto {
LinkerPlugin(PathBuf),
LinkerPluginAuto,
Disabled,
}
impl LinkerPluginLto {
pub fn enabled(&self) -> bool {
match *self {
LinkerPluginLto::LinkerPlugin(_) | LinkerPluginLto::LinkerPluginAuto => true,
LinkerPluginLto::Disabled => false,
}
}
}
#[derive(Clone, PartialEq, Hash)]
pub enum SwitchWithOptPath {
Enabled(Option<PathBuf>),
Disabled,
}
impl SwitchWithOptPath {
pub fn enabled(&self) -> bool {
match *self {
SwitchWithOptPath::Enabled(_) => true,
SwitchWithOptPath::Disabled => false,
}
}
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, RustcEncodable, RustcDecodable)]
pub enum SymbolManglingVersion {
Legacy,
V0,
}
impl_stable_hash_via_hash!(SymbolManglingVersion);
#[derive(Clone, Copy, PartialEq, Hash)]
pub enum DebugInfo {
None,
Limited,
Full,
}
#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, PartialOrd, Ord, RustcEncodable, RustcDecodable)]
pub enum OutputType {
Bitcode,
Assembly,
LlvmAssembly,
Mir,
Metadata,
Object,
Exe,
DepInfo,
}
impl_stable_hash_via_hash!(OutputType);
impl OutputType {
fn is_compatible_with_codegen_units_and_single_output_file(&self) -> bool {
match *self {
OutputType::Exe | OutputType::DepInfo | OutputType::Metadata => true,
OutputType::Bitcode
| OutputType::Assembly
| OutputType::LlvmAssembly
| OutputType::Mir
| OutputType::Object => false,
}
}
fn shorthand(&self) -> &'static str {
match *self {
OutputType::Bitcode => "llvm-bc",
OutputType::Assembly => "asm",
OutputType::LlvmAssembly => "llvm-ir",
OutputType::Mir => "mir",
OutputType::Object => "obj",
OutputType::Metadata => "metadata",
OutputType::Exe => "link",
OutputType::DepInfo => "dep-info",
}
}
fn from_shorthand(shorthand: &str) -> Option<Self> {
Some(match shorthand {
"asm" => OutputType::Assembly,
"llvm-ir" => OutputType::LlvmAssembly,
"mir" => OutputType::Mir,
"llvm-bc" => OutputType::Bitcode,
"obj" => OutputType::Object,
"metadata" => OutputType::Metadata,
"link" => OutputType::Exe,
"dep-info" => OutputType::DepInfo,
_ => return None,
})
}
fn shorthands_display() -> String {
format!(
"`{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`",
OutputType::Bitcode.shorthand(),
OutputType::Assembly.shorthand(),
OutputType::LlvmAssembly.shorthand(),
OutputType::Mir.shorthand(),
OutputType::Object.shorthand(),
OutputType::Metadata.shorthand(),
OutputType::Exe.shorthand(),
OutputType::DepInfo.shorthand(),
)
}
pub fn extension(&self) -> &'static str {
match *self {
OutputType::Bitcode => "bc",
OutputType::Assembly => "s",
OutputType::LlvmAssembly => "ll",
OutputType::Mir => "mir",
OutputType::Object => "o",
OutputType::Metadata => "rmeta",
OutputType::DepInfo => "d",
OutputType::Exe => "",
}
}
}
/// The type of diagnostics output to generate.
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum ErrorOutputType {
/// Output meant for the consumption of humans.
HumanReadable(HumanReadableErrorType),
/// Output that's consumed by other tools such as `rustfix` or the `RLS`.
Json {
/// Render the JSON in a human readable way (with indents and newlines).
pretty: bool,
/// The JSON output includes a `rendered` field that includes the rendered
/// human output.
json_rendered: HumanReadableErrorType,
},
}
impl Default for ErrorOutputType {
fn default() -> Self {
Self::HumanReadable(HumanReadableErrorType::Default(ColorConfig::Auto))
}
}
/// Use tree-based collections to cheaply get a deterministic `Hash` implementation.
/// *Do not* switch `BTreeMap` out for an unsorted container type! That would break
/// dependency tracking for command-line arguments.
#[derive(Clone, Hash)]
pub struct OutputTypes(BTreeMap<OutputType, Option<PathBuf>>);
impl_stable_hash_via_hash!(OutputTypes);
impl OutputTypes {
pub fn new(entries: &[(OutputType, Option<PathBuf>)]) -> OutputTypes {
OutputTypes(BTreeMap::from_iter(entries.iter().map(|&(k, ref v)| (k, v.clone()))))
}
pub fn get(&self, key: &OutputType) -> Option<&Option<PathBuf>> {
self.0.get(key)
}
pub fn contains_key(&self, key: &OutputType) -> bool {
self.0.contains_key(key)
}
pub fn keys(&self) -> BTreeMapKeysIter<'_, OutputType, Option<PathBuf>> {
self.0.keys()
}
pub fn values(&self) -> BTreeMapValuesIter<'_, OutputType, Option<PathBuf>> {
self.0.values()
}
pub fn len(&self) -> usize {
self.0.len()
}
// Returns `true` if any of the output types require codegen or linking.
pub fn should_codegen(&self) -> bool {
self.0.keys().any(|k| match *k {
OutputType::Bitcode
| OutputType::Assembly
| OutputType::LlvmAssembly
| OutputType::Mir
| OutputType::Object
| OutputType::Exe => true,
OutputType::Metadata | OutputType::DepInfo => false,
})
}
}
/// Use tree-based collections to cheaply get a deterministic `Hash` implementation.
/// *Do not* switch `BTreeMap` or `BTreeSet` out for an unsorted container type! That
/// would break dependency tracking for command-line arguments.
#[derive(Clone)]
pub struct Externs(BTreeMap<String, ExternEntry>);
#[derive(Clone, Debug)]
pub struct ExternEntry {
pub location: ExternLocation,
/// Indicates this is a "private" dependency for the
/// `exported_private_dependencies` lint.
///
/// This can be set with the `priv` option like
/// `--extern priv:name=foo.rlib`.
pub is_private_dep: bool,
/// Add the extern entry to the extern prelude.
///
/// This can be disabled with the `noprelude` option like
/// `--extern noprelude:name`.
pub add_prelude: bool,
}
#[derive(Clone, Debug)]
pub enum ExternLocation {
/// Indicates to look for the library in the search paths.
///
/// Added via `--extern name`.
FoundInLibrarySearchDirectories,
/// The locations where this extern entry must be found.
///
/// The `CrateLoader` is responsible for loading these and figuring out
/// which one to use.
///
/// Added via `--extern prelude_name=some_file.rlib`
ExactPaths(BTreeSet<String>),
}
impl Externs {
pub fn new(data: BTreeMap<String, ExternEntry>) -> Externs {
Externs(data)
}
pub fn get(&self, key: &str) -> Option<&ExternEntry> {
self.0.get(key)
}
pub fn iter(&self) -> BTreeMapIter<'_, String, ExternEntry> {
self.0.iter()
}
}
impl ExternEntry {
fn new(location: ExternLocation) -> ExternEntry {
ExternEntry { location, is_private_dep: false, add_prelude: false }
}
pub fn files(&self) -> Option<impl Iterator<Item = &String>> {
match &self.location {
ExternLocation::ExactPaths(set) => Some(set.iter()),
_ => None,
}
}
}
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum PrintRequest {
FileNames,
Sysroot,
TargetLibdir,
CrateName,
Cfg,
TargetList,
TargetCPUs,
TargetFeatures,
RelocationModels,
CodeModels,
TlsModels,
TargetSpec,
NativeStaticLibs,
}
#[derive(Copy, Clone)]
pub enum BorrowckMode {
Mir,
Migrate,
}
impl BorrowckMode {
/// Returns whether we should run the MIR-based borrow check, but also fall back
/// on the AST borrow check if the MIR-based one errors.
pub fn migrate(self) -> bool {
match self {
BorrowckMode::Mir => false,
BorrowckMode::Migrate => true,
}
}
}
pub enum Input {
/// Load source code from a file.
File(PathBuf),
/// Load source code from a string.
Str {
/// A string that is shown in place of a filename.
name: FileName,
/// An anonymous string containing the source code.
input: String,
},
}
impl Input {
pub fn filestem(&self) -> &str {
match *self {
Input::File(ref ifile) => ifile.file_stem().unwrap().to_str().unwrap(),
Input::Str { .. } => "rust_out",
}
}
pub fn get_input(&mut self) -> Option<&mut String> {
match *self {
Input::File(_) => None,
Input::Str { ref mut input, .. } => Some(input),
}
}
pub fn source_name(&self) -> FileName {
match *self {
Input::File(ref ifile) => ifile.clone().into(),
Input::Str { ref name, .. } => name.clone(),
}
}
}
#[derive(Clone, Hash)]
pub struct OutputFilenames {
pub out_directory: PathBuf,
filestem: String,
pub single_output_file: Option<PathBuf>,
pub outputs: OutputTypes,
}
impl_stable_hash_via_hash!(OutputFilenames);
pub const RLINK_EXT: &str = "rlink";
pub const RUST_CGU_EXT: &str = "rcgu";
impl OutputFilenames {
pub fn new(
out_directory: PathBuf,
out_filestem: String,
single_output_file: Option<PathBuf>,
extra: String,
outputs: OutputTypes,
) -> Self {
OutputFilenames {
out_directory,
single_output_file,
outputs,
filestem: format!("{}{}", out_filestem, extra),
}
}
pub fn path(&self, flavor: OutputType) -> PathBuf {
self.outputs
.get(&flavor)
.and_then(|p| p.to_owned())
.or_else(|| self.single_output_file.clone())
.unwrap_or_else(|| self.temp_path(flavor, None))
}
/// Gets the path where a compilation artifact of the given type for the
/// given codegen unit should be placed on disk. If codegen_unit_name is
/// None, a path distinct from those of any codegen unit will be generated.
pub fn temp_path(&self, flavor: OutputType, codegen_unit_name: Option<&str>) -> PathBuf {
let extension = flavor.extension();
self.temp_path_ext(extension, codegen_unit_name)
}
/// Like temp_path, but also supports things where there is no corresponding
/// OutputType, like noopt-bitcode or lto-bitcode.
pub fn temp_path_ext(&self, ext: &str, codegen_unit_name: Option<&str>) -> PathBuf {
let mut extension = String::new();
if let Some(codegen_unit_name) = codegen_unit_name {
extension.push_str(codegen_unit_name);
}
if !ext.is_empty() {
if !extension.is_empty() {
extension.push_str(".");
extension.push_str(RUST_CGU_EXT);
extension.push_str(".");
}
extension.push_str(ext);
}
self.with_extension(&extension)
}
pub fn with_extension(&self, extension: &str) -> PathBuf {
let mut path = self.out_directory.join(&self.filestem);
path.set_extension(extension);
path
}
}
pub fn host_triple() -> &'static str {
// Get the host triple out of the build environment. This ensures that our
// idea of the host triple is the same as for the set of libraries we've
// actually built. We can't just take LLVM's host triple because they
// normalize all ix86 architectures to i386.
//
// Instead of grabbing the host triple (for the current host), we grab (at
// compile time) the target triple that this rustc is built with and
// calling that (at runtime) the host triple.
(option_env!("CFG_COMPILER_HOST_TRIPLE")).expect("CFG_COMPILER_HOST_TRIPLE")
}
impl Default for Options {
fn default() -> Options {
Options {
crate_types: Vec::new(),
optimize: OptLevel::No,
debuginfo: DebugInfo::None,
lint_opts: Vec::new(),
lint_cap: None,
describe_lints: false,
output_types: OutputTypes(BTreeMap::new()),
search_paths: vec![],
maybe_sysroot: None,
target_triple: TargetTriple::from_triple(host_triple()),
test: false,
incremental: None,
debugging_opts: basic_debugging_options(),
prints: Vec::new(),
borrowck_mode: BorrowckMode::Migrate,
cg: basic_codegen_options(),
error_format: ErrorOutputType::default(),
externs: Externs(BTreeMap::new()),
crate_name: None,
alt_std_name: None,
libs: Vec::new(),
unstable_features: UnstableFeatures::Disallow,
debug_assertions: true,
actually_rustdoc: false,
cli_forced_codegen_units: None,
cli_forced_thinlto_off: false,
remap_path_prefix: Vec::new(),
edition: DEFAULT_EDITION,
json_artifact_notifications: false,
pretty: None,
}
}
}
impl Options {
/// Returns `true` if there is a reason to build the dep graph.
pub fn build_dep_graph(&self) -> bool {
self.incremental.is_some()
|| self.debugging_opts.dump_dep_graph
|| self.debugging_opts.query_dep_graph
}
#[inline(always)]
pub fn enable_dep_node_debug_strs(&self) -> bool {
cfg!(debug_assertions)
&& (self.debugging_opts.query_dep_graph || self.debugging_opts.incremental_info)
}
pub fn file_path_mapping(&self) -> FilePathMapping {
FilePathMapping::new(self.remap_path_prefix.clone())
}
/// Returns `true` if there will be an output file generated.
pub fn will_create_output_file(&self) -> bool {
!self.debugging_opts.parse_only && // The file is just being parsed
!self.debugging_opts.ls // The file is just being queried
}
#[inline]
pub fn share_generics(&self) -> bool {
match self.debugging_opts.share_generics {
Some(setting) => setting,
None => match self.optimize {
OptLevel::No | OptLevel::Less | OptLevel::Size | OptLevel::SizeMin => true,
OptLevel::Default | OptLevel::Aggressive => false,
},
}
}
}
impl DebuggingOptions {
pub fn diagnostic_handler_flags(&self, can_emit_warnings: bool) -> HandlerFlags {
HandlerFlags {
can_emit_warnings,
treat_err_as_bug: self.treat_err_as_bug,
dont_buffer_diagnostics: self.dont_buffer_diagnostics,
report_delayed_bugs: self.report_delayed_bugs,
macro_backtrace: self.macro_backtrace,
deduplicate_diagnostics: self.deduplicate_diagnostics,
}
}
}
// The type of entry function, so users can have their own entry functions
#[derive(Copy, Clone, PartialEq, Hash, Debug)]
pub enum EntryFnType {
Main,
Start,
}
impl_stable_hash_via_hash!(EntryFnType);
#[derive(Copy, PartialEq, PartialOrd, Clone, Ord, Eq, Hash, Debug, RustcEncodable, RustcDecodable)]
pub enum CrateType {
Executable,
Dylib,
Rlib,
Staticlib,
Cdylib,
ProcMacro,
}
impl_stable_hash_via_hash!(CrateType);
#[derive(Clone, Hash)]
pub enum Passes {
Some(Vec<String>),
All,
}
impl Passes {
pub fn is_empty(&self) -> bool {
match *self {
Passes::Some(ref v) => v.is_empty(),
Passes::All => false,
}
}
}
pub const fn default_lib_output() -> CrateType {
CrateType::Rlib
}
pub fn default_configuration(sess: &Session) -> CrateConfig {
let end = &sess.target.target.target_endian;
let arch = &sess.target.target.arch;
let wordsz = &sess.target.target.target_pointer_width;
let os = &sess.target.target.target_os;
let env = &sess.target.target.target_env;
let vendor = &sess.target.target.target_vendor;
let min_atomic_width = sess.target.target.min_atomic_width();
let max_atomic_width = sess.target.target.max_atomic_width();
let atomic_cas = sess.target.target.options.atomic_cas;
let mut ret = FxHashSet::default();
ret.reserve(6); // the minimum number of insertions
// Target bindings.
ret.insert((Symbol::intern("target_os"), Some(Symbol::intern(os))));
if let Some(ref fam) = sess.target.target.options.target_family {
ret.insert((Symbol::intern("target_family"), Some(Symbol::intern(fam))));
if fam == "windows" || fam == "unix" {
ret.insert((Symbol::intern(fam), None));
}
}
ret.insert((Symbol::intern("target_arch"), Some(Symbol::intern(arch))));
ret.insert((Symbol::intern("target_endian"), Some(Symbol::intern(end))));
ret.insert((Symbol::intern("target_pointer_width"), Some(Symbol::intern(wordsz))));
ret.insert((Symbol::intern("target_env"), Some(Symbol::intern(env))));
ret.insert((Symbol::intern("target_vendor"), Some(Symbol::intern(vendor))));
if sess.target.target.options.has_elf_tls {
ret.insert((sym::target_thread_local, None));
}
for &i in &[8, 16, 32, 64, 128] {
if i >= min_atomic_width && i <= max_atomic_width {
let mut insert_atomic = |s| {
ret.insert((sym::target_has_atomic_load_store, Some(Symbol::intern(s))));
if atomic_cas {
ret.insert((sym::target_has_atomic, Some(Symbol::intern(s))));
}
};
let s = i.to_string();
insert_atomic(&s);
if &s == wordsz {
insert_atomic("ptr");
}
}
}
for s in sess.opts.debugging_opts.sanitizer {
let symbol = Symbol::intern(&s.to_string());
ret.insert((sym::sanitize, Some(symbol)));
}
if sess.opts.debug_assertions {
ret.insert((Symbol::intern("debug_assertions"), None));
}
if sess.opts.crate_types.contains(&CrateType::ProcMacro) {
ret.insert((sym::proc_macro, None));
}
ret
}
/// Converts the crate `cfg!` configuration from `String` to `Symbol`.
/// `rustc_interface::interface::Config` accepts this in the compiler configuration,
/// but the symbol interner is not yet set up then, so we must convert it later.
pub fn to_crate_config(cfg: FxHashSet<(String, Option<String>)>) -> CrateConfig {
cfg.into_iter().map(|(a, b)| (Symbol::intern(&a), b.map(|b| Symbol::intern(&b)))).collect()
}
pub fn build_configuration(sess: &Session, mut user_cfg: CrateConfig) -> CrateConfig {
// Combine the configuration requested by the session (command line) with
// some default and generated configuration items.
let default_cfg = default_configuration(sess);
// If the user wants a test runner, then add the test cfg.
if sess.opts.test {
user_cfg.insert((sym::test, None));
}
user_cfg.extend(default_cfg.iter().cloned());
user_cfg
}
pub fn build_target_config(opts: &Options, error_format: ErrorOutputType) -> Config {
let target = Target::search(&opts.target_triple).unwrap_or_else(|e| {
early_error(
error_format,
&format!(
"Error loading target specification: {}. \
Use `--print target-list` for a list of built-in targets",
e
),
)
});
let ptr_width = match &target.target_pointer_width[..] {
"16" => 16,
"32" => 32,
"64" => 64,
w => early_error(
error_format,
&format!(
"target specification was invalid: \
unrecognized target-pointer-width {}",
w
),
),
};
Config { target, ptr_width }
}
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum OptionStability {
Stable,
Unstable,
}
pub struct RustcOptGroup {
pub apply: Box<dyn Fn(&mut getopts::Options) -> &mut getopts::Options>,
pub name: &'static str,
pub stability: OptionStability,
}
impl RustcOptGroup {
pub fn is_stable(&self) -> bool {
self.stability == OptionStability::Stable
}
pub fn stable<F>(name: &'static str, f: F) -> RustcOptGroup
where
F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
{
RustcOptGroup { name, apply: Box::new(f), stability: OptionStability::Stable }
}
pub fn unstable<F>(name: &'static str, f: F) -> RustcOptGroup
where
F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
{
RustcOptGroup { name, apply: Box::new(f), stability: OptionStability::Unstable }
}
}
// The `opt` local module holds wrappers around the `getopts` API that
// adds extra rustc-specific metadata to each option; such metadata
// is exposed by . The public
// functions below ending with `_u` are the functions that return
// *unstable* options, i.e., options that are only enabled when the
// user also passes the `-Z unstable-options` debugging flag.
mod opt {
// The `fn flag*` etc below are written so that we can use them
// in the future; do not warn about them not being used right now.
#![allow(dead_code)]
use super::RustcOptGroup;
pub type R = RustcOptGroup;
pub type S = &'static str;
fn stable<F>(name: S, f: F) -> R
where
F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
{
RustcOptGroup::stable(name, f)
}
fn unstable<F>(name: S, f: F) -> R
where
F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
{
RustcOptGroup::unstable(name, f)
}
fn longer(a: S, b: S) -> S {
if a.len() > b.len() { a } else { b }
}
pub fn opt_s(a: S, b: S, c: S, d: S) -> R {
stable(longer(a, b), move |opts| opts.optopt(a, b, c, d))
}
pub fn multi_s(a: S, b: S, c: S, d: S) -> R {
stable(longer(a, b), move |opts| opts.optmulti(a, b, c, d))
}
pub fn flag_s(a: S, b: S, c: S) -> R {
stable(longer(a, b), move |opts| opts.optflag(a, b, c))
}
pub fn flagopt_s(a: S, b: S, c: S, d: S) -> R {
stable(longer(a, b), move |opts| opts.optflagopt(a, b, c, d))
}
pub fn flagmulti_s(a: S, b: S, c: S) -> R {
stable(longer(a, b), move |opts| opts.optflagmulti(a, b, c))
}
pub fn opt(a: S, b: S, c: S, d: S) -> R {
unstable(longer(a, b), move |opts| opts.optopt(a, b, c, d))
}
pub fn multi(a: S, b: S, c: S, d: S) -> R {
unstable(longer(a, b), move |opts| opts.optmulti(a, b, c, d))
}
pub fn flag(a: S, b: S, c: S) -> R {
unstable(longer(a, b), move |opts| opts.optflag(a, b, c))
}
pub fn flagopt(a: S, b: S, c: S, d: S) -> R {
unstable(longer(a, b), move |opts| opts.optflagopt(a, b, c, d))
}
pub fn flagmulti(a: S, b: S, c: S) -> R {
unstable(longer(a, b), move |opts| opts.optflagmulti(a, b, c))
}
}
/// Returns the "short" subset of the rustc command line options,
/// including metadata for each option, such as whether the option is
/// part of the stable long-term interface for rustc.
pub fn rustc_short_optgroups() -> Vec<RustcOptGroup> {
vec![
opt::flag_s("h", "help", "Display this message"),
opt::multi_s("", "cfg", "Configure the compilation environment", "SPEC"),
opt::multi_s(
"L",
"",
"Add a directory to the library search path. The
optional KIND can be one of dependency, crate, native,
framework, or all (the default).",
"[KIND=]PATH",
),
opt::multi_s(
"l",
"",
"Link the generated crate(s) to the specified native
library NAME. The optional KIND can be one of
static, framework, or dylib (the default).",
"[KIND=]NAME",
),
make_crate_type_option(),
opt::opt_s("", "crate-name", "Specify the name of the crate being built", "NAME"),
opt::opt_s(
"",
"edition",
"Specify which edition of the compiler to use when compiling code.",
EDITION_NAME_LIST,
),
opt::multi_s(
"",
"emit",
"Comma separated list of types of output for \
the compiler to emit",
"[asm|llvm-bc|llvm-ir|obj|metadata|link|dep-info|mir]",
),
opt::multi_s(
"",
"print",
"Compiler information to print on stdout",
"[crate-name|file-names|sysroot|target-libdir|cfg|target-list|\
target-cpus|target-features|relocation-models|\
code-models|tls-models|target-spec-json|native-static-libs]",
),
opt::flagmulti_s("g", "", "Equivalent to -C debuginfo=2"),
opt::flagmulti_s("O", "", "Equivalent to -C opt-level=2"),
opt::opt_s("o", "", "Write output to <filename>", "FILENAME"),
opt::opt_s(
"",
"out-dir",
"Write output to compiler-chosen filename \
in <dir>",
"DIR",
),
opt::opt_s(
"",
"explain",
"Provide a detailed explanation of an error \
message",
"OPT",
),
opt::flag_s("", "test", "Build a test harness"),
opt::opt_s("", "target", "Target triple for which the code is compiled", "TARGET"),
opt::multi_s("W", "warn", "Set lint warnings", "OPT"),
opt::multi_s("A", "allow", "Set lint allowed", "OPT"),
opt::multi_s("D", "deny", "Set lint denied", "OPT"),
opt::multi_s("F", "forbid", "Set lint forbidden", "OPT"),
opt::multi_s(
"",
"cap-lints",
"Set the most restrictive lint level. \
More restrictive lints are capped at this \
level",
"LEVEL",
),
opt::multi_s("C", "codegen", "Set a codegen option", "OPT[=VALUE]"),
opt::flag_s("V", "version", "Print version info and exit"),
opt::flag_s("v", "verbose", "Use verbose output"),
]
}
/// Returns all rustc command line options, including metadata for
/// each option, such as whether the option is part of the stable
/// long-term interface for rustc.
pub fn rustc_optgroups() -> Vec<RustcOptGroup> {
let mut opts = rustc_short_optgroups();
opts.extend(vec![
opt::multi_s(
"",
"extern",
"Specify where an external rust library is located",
"NAME[=PATH]",
),
opt::opt_s("", "sysroot", "Override the system root", "PATH"),
opt::multi("Z", "", "Set internal debugging options", "FLAG"),
opt::opt_s(
"",
"error-format",
"How errors and other messages are produced",
"human|json|short",
),
opt::multi_s("", "json", "Configure the JSON output of the compiler", "CONFIG"),
opt::opt_s(
"",
"color",
"Configure coloring of output:
auto = colorize, if output goes to a tty (default);
always = always colorize output;
never = never colorize output",
"auto|always|never",
),
opt::opt(
"",
"pretty",
"Pretty-print the input instead of compiling;
valid types are: `normal` (un-annotated source),
`expanded` (crates expanded), or
`expanded,identified` (fully parenthesized, AST nodes with IDs).",
"TYPE",
),
opt::multi_s(
"",
"remap-path-prefix",
"Remap source names in all output (compiler messages and output files)",
"FROM=TO",
),
]);
opts
}
pub fn get_cmd_lint_options(
matches: &getopts::Matches,
error_format: ErrorOutputType,
) -> (Vec<(String, lint::Level)>, bool, Option<lint::Level>) {
let mut lint_opts_with_position = vec![];
let mut describe_lints = false;
for &level in &[lint::Allow, lint::Warn, lint::Deny, lint::Forbid] {
for (passed_arg_pos, lint_name) in matches.opt_strs_pos(level.as_str()) {
let arg_pos = if let lint::Forbid = level {
// HACK: forbid is always specified last, so it can't be overridden.
// FIXME: remove this once <https://github.com/rust-lang/rust/issues/70819> is
// fixed and `forbid` works as expected.
usize::MAX
} else {
passed_arg_pos
};
if lint_name == "help" {
describe_lints = true;
} else {
lint_opts_with_position.push((arg_pos, lint_name.replace("-", "_"), level));
}
}
}
lint_opts_with_position.sort_by_key(|x| x.0);
let lint_opts = lint_opts_with_position
.iter()
.cloned()
.map(|(_, lint_name, level)| (lint_name, level))
.collect();
let lint_cap = matches.opt_str("cap-lints").map(|cap| {
lint::Level::from_str(&cap)
.unwrap_or_else(|| early_error(error_format, &format!("unknown lint level: `{}`", cap)))
});
(lint_opts, describe_lints, lint_cap)
}
/// Parses the `--color` flag.
pub fn parse_color(matches: &getopts::Matches) -> ColorConfig {
match matches.opt_str("color").as_ref().map(|s| &s[..]) {
Some("auto") => ColorConfig::Auto,
Some("always") => ColorConfig::Always,
Some("never") => ColorConfig::Never,
None => ColorConfig::Auto,
Some(arg) => early_error(
ErrorOutputType::default(),
&format!(
"argument for `--color` must be auto, \
always or never (instead was `{}`)",
arg
),
),
}
}
/// Parse the `--json` flag.
///
/// The first value returned is how to render JSON diagnostics, and the second
/// is whether or not artifact notifications are enabled.
pub fn parse_json(matches: &getopts::Matches) -> (HumanReadableErrorType, bool) {
let mut json_rendered: fn(ColorConfig) -> HumanReadableErrorType =
HumanReadableErrorType::Default;
let mut json_color = ColorConfig::Never;
let mut json_artifact_notifications = false;
for option in matches.opt_strs("json") {
// For now conservatively forbid `--color` with `--json` since `--json`
// won't actually be emitting any colors and anything colorized is
// embedded in a diagnostic message anyway.
if matches.opt_str("color").is_some() {
early_error(
ErrorOutputType::default(),
"cannot specify the `--color` option with `--json`",
);
}
for sub_option in option.split(',') {
match sub_option {
"diagnostic-short" => json_rendered = HumanReadableErrorType::Short,
"diagnostic-rendered-ansi" => json_color = ColorConfig::Always,
"artifacts" => json_artifact_notifications = true,
s => early_error(
ErrorOutputType::default(),
&format!("unknown `--json` option `{}`", s),
),
}
}
}
(json_rendered(json_color), json_artifact_notifications)
}
/// Parses the `--error-format` flag.
pub fn parse_error_format(
matches: &getopts::Matches,
color: ColorConfig,
json_rendered: HumanReadableErrorType,
) -> ErrorOutputType {
// We need the `opts_present` check because the driver will send us Matches
// with only stable options if no unstable options are used. Since error-format
// is unstable, it will not be present. We have to use `opts_present` not
// `opt_present` because the latter will panic.
let error_format = if matches.opts_present(&["error-format".to_owned()]) {
match matches.opt_str("error-format").as_ref().map(|s| &s[..]) {
None | Some("human") => {
ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color))
}
Some("human-annotate-rs") => {
ErrorOutputType::HumanReadable(HumanReadableErrorType::AnnotateSnippet(color))
}
Some("json") => ErrorOutputType::Json { pretty: false, json_rendered },
Some("pretty-json") => ErrorOutputType::Json { pretty: true, json_rendered },
Some("short") => ErrorOutputType::HumanReadable(HumanReadableErrorType::Short(color)),
Some(arg) => early_error(
ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color)),
&format!(
"argument for `--error-format` must be `human`, `json` or \
`short` (instead was `{}`)",
arg
),
),
}
} else {
ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color))
};
match error_format {
ErrorOutputType::Json { .. } => {}
// Conservatively require that the `--json` argument is coupled with
// `--error-format=json`. This means that `--json` is specified we
// should actually be emitting JSON blobs.
_ if !matches.opt_strs("json").is_empty() => {
early_error(
ErrorOutputType::default(),
"using `--json` requires also using `--error-format=json`",
);
}
_ => {}
}
error_format
}
fn parse_crate_edition(matches: &getopts::Matches) -> Edition {
let edition = match matches.opt_str("edition") {
Some(arg) => Edition::from_str(&arg).unwrap_or_else(|_| {
early_error(
ErrorOutputType::default(),
&format!(
"argument for `--edition` must be one of: \
{}. (instead was `{}`)",
EDITION_NAME_LIST, arg
),
)
}),
None => DEFAULT_EDITION,
};
if !edition.is_stable() && !nightly_options::is_nightly_build() {
early_error(
ErrorOutputType::default(),
&format!(
"edition {} is unstable and only \
available for nightly builds of rustc.",
edition,
),
)
}
edition
}
fn check_debug_option_stability(
debugging_opts: &DebuggingOptions,
error_format: ErrorOutputType,
json_rendered: HumanReadableErrorType,
) {
if !debugging_opts.unstable_options {
if let ErrorOutputType::Json { pretty: true, json_rendered } = error_format {
early_error(
ErrorOutputType::Json { pretty: false, json_rendered },
"`--error-format=pretty-json` is unstable",
);
}
if let ErrorOutputType::HumanReadable(HumanReadableErrorType::AnnotateSnippet(_)) =
error_format
{
early_error(
ErrorOutputType::Json { pretty: false, json_rendered },
"`--error-format=human-annotate-rs` is unstable",
);
}
}
}
fn parse_output_types(
debugging_opts: &DebuggingOptions,
matches: &getopts::Matches,
error_format: ErrorOutputType,
) -> OutputTypes {
let mut output_types = BTreeMap::new();
if !debugging_opts.parse_only {
for list in matches.opt_strs("emit") {
for output_type in list.split(',') {
let mut parts = output_type.splitn(2, '=');
let shorthand = parts.next().unwrap();
let output_type = OutputType::from_shorthand(shorthand).unwrap_or_else(|| {
early_error(
error_format,
&format!(
"unknown emission type: `{}` - expected one of: {}",
shorthand,
OutputType::shorthands_display(),
),
)
});
let path = parts.next().map(PathBuf::from);
output_types.insert(output_type, path);
}
}
};
if output_types.is_empty() {
output_types.insert(OutputType::Exe, None);
}
OutputTypes(output_types)
}
fn should_override_cgus_and_disable_thinlto(
output_types: &OutputTypes,
matches: &getopts::Matches,
error_format: ErrorOutputType,
mut codegen_units: Option<usize>,
) -> (bool, Option<usize>) {
let mut disable_thinlto = false;
// Issue #30063: if user requests LLVM-related output to one
// particular path, disable codegen-units.
let incompatible: Vec<_> = output_types
.0
.iter()
.map(|ot_path| ot_path.0)
.filter(|ot| !ot.is_compatible_with_codegen_units_and_single_output_file())
.map(|ot| ot.shorthand())
.collect();
if !incompatible.is_empty() {
match codegen_units {
Some(n) if n > 1 => {
if matches.opt_present("o") {
for ot in &incompatible {
early_warn(
error_format,
&format!(
"`--emit={}` with `-o` incompatible with \
`-C codegen-units=N` for N > 1",
ot
),
);
}
early_warn(error_format, "resetting to default -C codegen-units=1");
codegen_units = Some(1);
disable_thinlto = true;
}
}
_ => {
codegen_units = Some(1);
disable_thinlto = true;
}
}
}
if codegen_units == Some(0) {
early_error(error_format, "value for codegen units must be a positive non-zero integer");
}
(disable_thinlto, codegen_units)
}
fn check_thread_count(debugging_opts: &DebuggingOptions, error_format: ErrorOutputType) {
if debugging_opts.threads == 0 {
early_error(error_format, "value for threads must be a positive non-zero integer");
}
if debugging_opts.threads > 1 && debugging_opts.fuel.is_some() {
early_error(error_format, "optimization fuel is incompatible with multiple threads");
}
}
fn collect_print_requests(
cg: &mut CodegenOptions,
dopts: &mut DebuggingOptions,
matches: &getopts::Matches,
error_format: ErrorOutputType,
) -> Vec<PrintRequest> {
let mut prints = Vec::<PrintRequest>::new();
if cg.target_cpu.as_ref().map_or(false, |s| s == "help") {
prints.push(PrintRequest::TargetCPUs);
cg.target_cpu = None;
};
if cg.target_feature == "help" {
prints.push(PrintRequest::TargetFeatures);
cg.target_feature = String::new();
}
prints.extend(matches.opt_strs("print").into_iter().map(|s| match &*s {
"crate-name" => PrintRequest::CrateName,
"file-names" => PrintRequest::FileNames,
"sysroot" => PrintRequest::Sysroot,
"target-libdir" => PrintRequest::TargetLibdir,
"cfg" => PrintRequest::Cfg,
"target-list" => PrintRequest::TargetList,
"target-cpus" => PrintRequest::TargetCPUs,
"target-features" => PrintRequest::TargetFeatures,
"relocation-models" => PrintRequest::RelocationModels,
"code-models" => PrintRequest::CodeModels,
"tls-models" => PrintRequest::TlsModels,
"native-static-libs" => PrintRequest::NativeStaticLibs,
"target-spec-json" => {
if dopts.unstable_options {
PrintRequest::TargetSpec
} else {
early_error(
error_format,
"the `-Z unstable-options` flag must also be passed to \
enable the target-spec-json print option",
);
}
}
req => early_error(error_format, &format!("unknown print request `{}`", req)),
}));
prints
}
fn parse_target_triple(matches: &getopts::Matches, error_format: ErrorOutputType) -> TargetTriple {
match matches.opt_str("target") {
Some(target) if target.ends_with(".json") => {
let path = Path::new(&target);
TargetTriple::from_path(&path).unwrap_or_else(|_| {
early_error(error_format, &format!("target file {:?} does not exist", path))
})
}
Some(target) => TargetTriple::TargetTriple(target),
_ => TargetTriple::from_triple(host_triple()),
}
}
fn parse_opt_level(
matches: &getopts::Matches,
cg: &CodegenOptions,
error_format: ErrorOutputType,
) -> OptLevel {
// The `-O` and `-C opt-level` flags specify the same setting, so we want to be able
// to use them interchangeably. However, because they're technically different flags,
// we need to work out manually which should take precedence if both are supplied (i.e.
// the rightmost flag). We do this by finding the (rightmost) position of both flags and
// comparing them. Note that if a flag is not found, its position will be `None`, which
// always compared less than `Some(_)`.
let max_o = matches.opt_positions("O").into_iter().max();
let max_c = matches
.opt_strs_pos("C")
.into_iter()
.flat_map(
|(i, s)| {
if let Some("opt-level") = s.splitn(2, '=').next() { Some(i) } else { None }
},
)
.max();
if max_o > max_c {
OptLevel::Default
} else {
match cg.opt_level.as_ref() {
"0" => OptLevel::No,
"1" => OptLevel::Less,
"2" => OptLevel::Default,
"3" => OptLevel::Aggressive,
"s" => OptLevel::Size,
"z" => OptLevel::SizeMin,
arg => {
early_error(
error_format,
&format!(
"optimization level needs to be \
between 0-3, s or z (instead was `{}`)",
arg
),
);
}
}
}
}
fn select_debuginfo(
matches: &getopts::Matches,
cg: &CodegenOptions,
error_format: ErrorOutputType,
) -> DebugInfo {
let max_g = matches.opt_positions("g").into_iter().max();
let max_c = matches
.opt_strs_pos("C")
.into_iter()
.flat_map(
|(i, s)| {
if let Some("debuginfo") = s.splitn(2, '=').next() { Some(i) } else { None }
},
)
.max();
if max_g > max_c {
DebugInfo::Full
} else {
match cg.debuginfo {
0 => DebugInfo::None,
1 => DebugInfo::Limited,
2 => DebugInfo::Full,
arg => {
early_error(
error_format,
&format!(
"debug info level needs to be between \
0-2 (instead was `{}`)",
arg
),
);
}
}
}
}
fn parse_libs(
matches: &getopts::Matches,
error_format: ErrorOutputType,
) -> Vec<(String, Option<String>, NativeLibKind)> {
matches
.opt_strs("l")
.into_iter()
.map(|s| {
// Parse string of the form "[KIND=]lib[:new_name]",
// where KIND is one of "dylib", "framework", "static".
let mut parts = s.splitn(2, '=');
let kind = parts.next().unwrap();
let (name, kind) = match (parts.next(), kind) {
(None, name) => (name, NativeLibKind::Unspecified),
(Some(name), "dylib") => (name, NativeLibKind::Dylib),
(Some(name), "framework") => (name, NativeLibKind::Framework),
(Some(name), "static") => (name, NativeLibKind::StaticBundle),
(Some(name), "static-nobundle") => (name, NativeLibKind::StaticNoBundle),
(_, s) => {
early_error(
error_format,
&format!(
"unknown library kind `{}`, expected \
one of dylib, framework, or static",
s
),
);
}
};
if kind == NativeLibKind::StaticNoBundle && !nightly_options::is_nightly_build() {
early_error(
error_format,
"the library kind 'static-nobundle' is only \
accepted on the nightly compiler",
);
}
let mut name_parts = name.splitn(2, ':');
let name = name_parts.next().unwrap();
let new_name = name_parts.next();
(name.to_owned(), new_name.map(|n| n.to_owned()), kind)
})
.collect()
}
fn parse_borrowck_mode(dopts: &DebuggingOptions, error_format: ErrorOutputType) -> BorrowckMode {
match dopts.borrowck.as_ref() {
"migrate" => BorrowckMode::Migrate,
"mir" => BorrowckMode::Mir,
m => early_error(error_format, &format!("unknown borrowck mode `{}`", m)),
}
}
pub fn parse_externs(
matches: &getopts::Matches,
debugging_opts: &DebuggingOptions,
error_format: ErrorOutputType,
) -> Externs {
let is_unstable_enabled = debugging_opts.unstable_options;
let mut externs: BTreeMap<String, ExternEntry> = BTreeMap::new();
for arg in matches.opt_strs("extern") {
let mut parts = arg.splitn(2, '=');
let name = parts
.next()
.unwrap_or_else(|| early_error(error_format, "--extern value must not be empty"));
let path = parts.next().map(|s| s.to_string());
let mut name_parts = name.splitn(2, ':');
let first_part = name_parts.next();
let second_part = name_parts.next();
let (options, name) = match (first_part, second_part) {
(Some(opts), Some(name)) => (Some(opts), name),
(Some(name), None) => (None, name),
(None, None) => early_error(error_format, "--extern name must not be empty"),
_ => unreachable!(),
};
let entry = externs.entry(name.to_owned());
use std::collections::btree_map::Entry;
let entry = if let Some(path) = path {
// --extern prelude_name=some_file.rlib
match entry {
Entry::Vacant(vacant) => {
let files = BTreeSet::from_iter(iter::once(path));
vacant.insert(ExternEntry::new(ExternLocation::ExactPaths(files)))
}
Entry::Occupied(occupied) => {
let ext_ent = occupied.into_mut();
match ext_ent {
ExternEntry { location: ExternLocation::ExactPaths(files), .. } => {
files.insert(path);
}
ExternEntry {
location: location @ ExternLocation::FoundInLibrarySearchDirectories,
..
} => {
// Exact paths take precedence over search directories.
let files = BTreeSet::from_iter(iter::once(path));
*location = ExternLocation::ExactPaths(files);
}
}
ext_ent
}
}
} else {
// --extern prelude_name
match entry {
Entry::Vacant(vacant) => {
vacant.insert(ExternEntry::new(ExternLocation::FoundInLibrarySearchDirectories))
}
Entry::Occupied(occupied) => {
// Ignore if already specified.
occupied.into_mut()
}
}
};
let mut is_private_dep = false;
let mut add_prelude = true;
if let Some(opts) = options {
if !is_unstable_enabled {
early_error(
error_format,
"the `-Z unstable-options` flag must also be passed to \
enable `--extern options",
);
}
for opt in opts.split(',') {
match opt {
"priv" => is_private_dep = true,
"noprelude" => {
if let ExternLocation::ExactPaths(_) = &entry.location {
add_prelude = false;
} else {
early_error(
error_format,
"the `noprelude` --extern option requires a file path",
);
}
}
_ => early_error(error_format, &format!("unknown --extern option `{}`", opt)),
}
}
}
// Crates start out being not private, and go to being private `priv`
// is specified.
entry.is_private_dep |= is_private_dep;
// If any flag is missing `noprelude`, then add to the prelude.
entry.add_prelude |= add_prelude;
}
Externs(externs)
}
fn parse_remap_path_prefix(
matches: &getopts::Matches,
error_format: ErrorOutputType,
) -> Vec<(PathBuf, PathBuf)> {
matches
.opt_strs("remap-path-prefix")
.into_iter()
.map(|remap| {
let mut parts = remap.rsplitn(2, '='); // reverse iterator
let to = parts.next();
let from = parts.next();
match (from, to) {
(Some(from), Some(to)) => (PathBuf::from(from), PathBuf::from(to)),
_ => early_error(
error_format,
"--remap-path-prefix must contain '=' between FROM and TO",
),
}
})
.collect()
}
pub fn build_session_options(matches: &getopts::Matches) -> Options {
let color = parse_color(matches);
let edition = parse_crate_edition(matches);
let (json_rendered, json_artifact_notifications) = parse_json(matches);
let error_format = parse_error_format(matches, color, json_rendered);
let unparsed_crate_types = matches.opt_strs("crate-type");
let crate_types = parse_crate_types_from_list(unparsed_crate_types)
.unwrap_or_else(|e| early_error(error_format, &e[..]));
let (lint_opts, describe_lints, lint_cap) = get_cmd_lint_options(matches, error_format);
let mut debugging_opts = build_debugging_options(matches, error_format);
check_debug_option_stability(&debugging_opts, error_format, json_rendered);
let output_types = parse_output_types(&debugging_opts, matches, error_format);
let mut cg = build_codegen_options(matches, error_format);
let (disable_thinlto, mut codegen_units) = should_override_cgus_and_disable_thinlto(
&output_types,
matches,
error_format,
cg.codegen_units,
);
check_thread_count(&debugging_opts, error_format);
let incremental = cg.incremental.as_ref().map(PathBuf::from);
if debugging_opts.profile && incremental.is_some() {
early_error(
error_format,
"can't instrument with gcov profiling when compiling incrementally",
);
}
if debugging_opts.profile {
match codegen_units {
Some(1) => {}
None => codegen_units = Some(1),
Some(_) => early_error(
error_format,
"can't instrument with gcov profiling with multiple codegen units",
),
}
}
if cg.profile_generate.enabled() && cg.profile_use.is_some() {
early_error(
error_format,
"options `-C profile-generate` and `-C profile-use` are exclusive",
);
}
if !cg.embed_bitcode {
match cg.lto {
LtoCli::No | LtoCli::Unspecified => {}
LtoCli::Yes | LtoCli::NoParam | LtoCli::Thin | LtoCli::Fat => early_error(
error_format,
"options `-C embed-bitcode=no` and `-C lto` are incompatible",
),
}
}
let prints = collect_print_requests(&mut cg, &mut debugging_opts, matches, error_format);
let cg = cg;
let sysroot_opt = matches.opt_str("sysroot").map(|m| PathBuf::from(&m));
let target_triple = parse_target_triple(matches, error_format);
let opt_level = parse_opt_level(matches, &cg, error_format);
// The `-g` and `-C debuginfo` flags specify the same setting, so we want to be able
// to use them interchangeably. See the note above (regarding `-O` and `-C opt-level`)
// for more details.
let debug_assertions = cg.debug_assertions.unwrap_or(opt_level == OptLevel::No);
let debuginfo = select_debuginfo(matches, &cg, error_format);
let mut search_paths = vec![];
for s in &matches.opt_strs("L") {
search_paths.push(SearchPath::from_cli_opt(&s[..], error_format));
}
let libs = parse_libs(matches, error_format);
let test = matches.opt_present("test");
let borrowck_mode = parse_borrowck_mode(&debugging_opts, error_format);
if !cg.remark.is_empty() && debuginfo == DebugInfo::None {
early_warn(error_format, "-C remark requires \"-C debuginfo=n\" to show source locations");
}
let externs = parse_externs(matches, &debugging_opts, error_format);
let crate_name = matches.opt_str("crate-name");
let remap_path_prefix = parse_remap_path_prefix(matches, error_format);
let pretty = parse_pretty(matches, &debugging_opts, error_format);
Options {
crate_types,
optimize: opt_level,
debuginfo,
lint_opts,
lint_cap,
describe_lints,
output_types,
search_paths,
maybe_sysroot: sysroot_opt,
target_triple,
test,
incremental,
debugging_opts,
prints,
borrowck_mode,
cg,
error_format,
externs,
crate_name,
alt_std_name: None,
libs,
unstable_features: UnstableFeatures::from_environment(),
debug_assertions,
actually_rustdoc: false,
cli_forced_codegen_units: codegen_units,
cli_forced_thinlto_off: disable_thinlto,
remap_path_prefix,
edition,
json_artifact_notifications,
pretty,
}
}
fn parse_pretty(
matches: &getopts::Matches,
debugging_opts: &DebuggingOptions,
efmt: ErrorOutputType,
) -> Option<PpMode> {
let pretty = if debugging_opts.unstable_options {
matches.opt_default("pretty", "normal").map(|a| {
// stable pretty-print variants only
parse_pretty_inner(efmt, &a, false)
})
} else {
None
};
return if pretty.is_none() {
debugging_opts.unpretty.as_ref().map(|a| {
// extended with unstable pretty-print variants
parse_pretty_inner(efmt, &a, true)
})
} else {
pretty
};
fn parse_pretty_inner(efmt: ErrorOutputType, name: &str, extended: bool) -> PpMode {
use PpMode::*;
use PpSourceMode::*;
let first = match (name, extended) {
("normal", _) => PpmSource(PpmNormal),
("identified", _) => PpmSource(PpmIdentified),
("everybody_loops", true) => PpmSource(PpmEveryBodyLoops),
("expanded", _) => PpmSource(PpmExpanded),
("expanded,identified", _) => PpmSource(PpmExpandedIdentified),
("expanded,hygiene", _) => PpmSource(PpmExpandedHygiene),
("hir", true) => PpmHir(PpmNormal),
("hir,identified", true) => PpmHir(PpmIdentified),
("hir,typed", true) => PpmHir(PpmTyped),
("hir-tree", true) => PpmHirTree(PpmNormal),
("mir", true) => PpmMir,
("mir-cfg", true) => PpmMirCFG,
_ => {
if extended {
early_error(
efmt,
&format!(
"argument to `unpretty` must be one of `normal`, \
`expanded`, `identified`, `expanded,identified`, \
`expanded,hygiene`, `everybody_loops`, \
`hir`, `hir,identified`, `hir,typed`, `hir-tree`, \
`mir` or `mir-cfg`; got {}",
name
),
);
} else {
early_error(
efmt,
&format!(
"argument to `pretty` must be one of `normal`, \
`expanded`, `identified`, or `expanded,identified`; got {}",
name
),
);
}
}
};
log::debug!("got unpretty option: {:?}", first);
first
}
}
pub fn make_crate_type_option() -> RustcOptGroup {
opt::multi_s(
"",
"crate-type",
"Comma separated list of types of crates
for the compiler to emit",
"[bin|lib|rlib|dylib|cdylib|staticlib|proc-macro]",
)
}
pub fn parse_crate_types_from_list(list_list: Vec<String>) -> Result<Vec<CrateType>, String> {
let mut crate_types: Vec<CrateType> = Vec::new();
for unparsed_crate_type in &list_list {
for part in unparsed_crate_type.split(',') {
let new_part = match part {
"lib" => default_lib_output(),
"rlib" => CrateType::Rlib,
"staticlib" => CrateType::Staticlib,
"dylib" => CrateType::Dylib,
"cdylib" => CrateType::Cdylib,
"bin" => CrateType::Executable,
"proc-macro" => CrateType::ProcMacro,
_ => return Err(format!("unknown crate type: `{}`", part)),
};
if !crate_types.contains(&new_part) {
crate_types.push(new_part)
}
}
}
Ok(crate_types)
}
pub mod nightly_options {
use super::{ErrorOutputType, OptionStability, RustcOptGroup};
use crate::early_error;
use rustc_feature::UnstableFeatures;
pub fn is_unstable_enabled(matches: &getopts::Matches) -> bool {
is_nightly_build() && matches.opt_strs("Z").iter().any(|x| *x == "unstable-options")
}
pub fn is_nightly_build() -> bool {
UnstableFeatures::from_environment().is_nightly_build()
}
pub fn check_nightly_options(matches: &getopts::Matches, flags: &[RustcOptGroup]) {
let has_z_unstable_option = matches.opt_strs("Z").iter().any(|x| *x == "unstable-options");
let really_allows_unstable_options =
UnstableFeatures::from_environment().is_nightly_build();
for opt in flags.iter() {
if opt.stability == OptionStability::Stable {
continue;
}
if !matches.opt_present(opt.name) {
continue;
}
if opt.name != "Z" && !has_z_unstable_option {
early_error(
ErrorOutputType::default(),
&format!(
"the `-Z unstable-options` flag must also be passed to enable \
the flag `{}`",
opt.name
),
);
}
if really_allows_unstable_options {
continue;
}
match opt.stability {
OptionStability::Unstable => {
let msg = format!(
"the option `{}` is only accepted on the \
nightly compiler",
opt.name
);
early_error(ErrorOutputType::default(), &msg);
}
OptionStability::Stable => {}
}
}
}
}
impl fmt::Display for CrateType {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
CrateType::Executable => "bin".fmt(f),
CrateType::Dylib => "dylib".fmt(f),
CrateType::Rlib => "rlib".fmt(f),
CrateType::Staticlib => "staticlib".fmt(f),
CrateType::Cdylib => "cdylib".fmt(f),
CrateType::ProcMacro => "proc-macro".fmt(f),
}
}
}
#[derive(Copy, Clone, PartialEq, Debug)]
pub enum PpSourceMode {
PpmNormal,
PpmEveryBodyLoops,
PpmExpanded,
PpmIdentified,
PpmExpandedIdentified,
PpmExpandedHygiene,
PpmTyped,
}
#[derive(Copy, Clone, PartialEq, Debug)]
pub enum PpMode {
PpmSource(PpSourceMode),
PpmHir(PpSourceMode),
PpmHirTree(PpSourceMode),
PpmMir,
PpmMirCFG,
}
impl PpMode {
pub fn needs_ast_map(&self) -> bool {
use PpMode::*;
use PpSourceMode::*;
match *self {
PpmSource(PpmNormal | PpmIdentified) => false,
PpmSource(
PpmExpanded | PpmEveryBodyLoops | PpmExpandedIdentified | PpmExpandedHygiene,
)
| PpmHir(_)
| PpmHirTree(_)
| PpmMir
| PpmMirCFG => true,
PpmSource(PpmTyped) => panic!("invalid state"),
}
}
pub fn needs_analysis(&self) -> bool {
use PpMode::*;
match *self {
PpmMir | PpmMirCFG => true,
_ => false,
}
}
}
/// Command-line arguments passed to the compiler have to be incorporated with
/// the dependency tracking system for incremental compilation. This module
/// provides some utilities to make this more convenient.
///
/// The values of all command-line arguments that are relevant for dependency
/// tracking are hashed into a single value that determines whether the
/// incremental compilation cache can be re-used or not. This hashing is done
/// via the `DepTrackingHash` trait defined below, since the standard `Hash`
/// implementation might not be suitable (e.g., arguments are stored in a `Vec`,
/// the hash of which is order dependent, but we might not want the order of
/// arguments to make a difference for the hash).
///
/// However, since the value provided by `Hash::hash` often *is* suitable,
/// especially for primitive types, there is the
/// `impl_dep_tracking_hash_via_hash!()` macro that allows to simply reuse the
/// `Hash` implementation for `DepTrackingHash`. It's important though that
/// we have an opt-in scheme here, so one is hopefully forced to think about
/// how the hash should be calculated when adding a new command-line argument.
crate mod dep_tracking {
use super::{
CFGuard, CrateType, DebugInfo, ErrorOutputType, LinkerPluginLto, LtoCli, OptLevel,
OutputTypes, Passes, SanitizerSet, SourceFileHashAlgorithm, SwitchWithOptPath,
SymbolManglingVersion,
};
use crate::lint;
use crate::utils::NativeLibKind;
use rustc_feature::UnstableFeatures;
use rustc_span::edition::Edition;
use rustc_target::spec::{CodeModel, MergeFunctions, PanicStrategy, RelocModel};
use rustc_target::spec::{RelroLevel, TargetTriple, TlsModel};
use std::collections::hash_map::DefaultHasher;
use std::collections::BTreeMap;
use std::hash::Hash;
use std::path::PathBuf;
pub trait DepTrackingHash {
fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType);
}
macro_rules! impl_dep_tracking_hash_via_hash {
($t:ty) => {
impl DepTrackingHash for $t {
fn hash(&self, hasher: &mut DefaultHasher, _: ErrorOutputType) {
Hash::hash(self, hasher);
}
}
};
}
macro_rules! impl_dep_tracking_hash_for_sortable_vec_of {
($t:ty) => {
impl DepTrackingHash for Vec<$t> {
fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
let mut elems: Vec<&$t> = self.iter().collect();
elems.sort();
Hash::hash(&elems.len(), hasher);
for (index, elem) in elems.iter().enumerate() {
Hash::hash(&index, hasher);
DepTrackingHash::hash(*elem, hasher, error_format);
}
}
}
};
}
impl_dep_tracking_hash_via_hash!(bool);
impl_dep_tracking_hash_via_hash!(usize);
impl_dep_tracking_hash_via_hash!(u64);
impl_dep_tracking_hash_via_hash!(String);
impl_dep_tracking_hash_via_hash!(PathBuf);
impl_dep_tracking_hash_via_hash!(lint::Level);
impl_dep_tracking_hash_via_hash!(Option<bool>);
impl_dep_tracking_hash_via_hash!(Option<usize>);
impl_dep_tracking_hash_via_hash!(Option<String>);
impl_dep_tracking_hash_via_hash!(Option<(String, u64)>);
impl_dep_tracking_hash_via_hash!(Option<Vec<String>>);
impl_dep_tracking_hash_via_hash!(Option<MergeFunctions>);
impl_dep_tracking_hash_via_hash!(Option<RelocModel>);
impl_dep_tracking_hash_via_hash!(Option<CodeModel>);
impl_dep_tracking_hash_via_hash!(Option<TlsModel>);
impl_dep_tracking_hash_via_hash!(Option<PanicStrategy>);
impl_dep_tracking_hash_via_hash!(Option<RelroLevel>);
impl_dep_tracking_hash_via_hash!(Option<lint::Level>);
impl_dep_tracking_hash_via_hash!(Option<PathBuf>);
impl_dep_tracking_hash_via_hash!(CrateType);
impl_dep_tracking_hash_via_hash!(MergeFunctions);
impl_dep_tracking_hash_via_hash!(PanicStrategy);
impl_dep_tracking_hash_via_hash!(RelroLevel);
impl_dep_tracking_hash_via_hash!(Passes);
impl_dep_tracking_hash_via_hash!(OptLevel);
impl_dep_tracking_hash_via_hash!(LtoCli);
impl_dep_tracking_hash_via_hash!(DebugInfo);
impl_dep_tracking_hash_via_hash!(UnstableFeatures);
impl_dep_tracking_hash_via_hash!(OutputTypes);
impl_dep_tracking_hash_via_hash!(NativeLibKind);
impl_dep_tracking_hash_via_hash!(SanitizerSet);
impl_dep_tracking_hash_via_hash!(CFGuard);
impl_dep_tracking_hash_via_hash!(TargetTriple);
impl_dep_tracking_hash_via_hash!(Edition);
impl_dep_tracking_hash_via_hash!(LinkerPluginLto);
impl_dep_tracking_hash_via_hash!(SwitchWithOptPath);
impl_dep_tracking_hash_via_hash!(SymbolManglingVersion);
impl_dep_tracking_hash_via_hash!(Option<SourceFileHashAlgorithm>);
impl_dep_tracking_hash_for_sortable_vec_of!(String);
impl_dep_tracking_hash_for_sortable_vec_of!(PathBuf);
impl_dep_tracking_hash_for_sortable_vec_of!(CrateType);
impl_dep_tracking_hash_for_sortable_vec_of!((String, lint::Level));
impl_dep_tracking_hash_for_sortable_vec_of!((String, Option<String>, NativeLibKind));
impl_dep_tracking_hash_for_sortable_vec_of!((String, u64));
impl<T1, T2> DepTrackingHash for (T1, T2)
where
T1: DepTrackingHash,
T2: DepTrackingHash,
{
fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
Hash::hash(&0, hasher);
DepTrackingHash::hash(&self.0, hasher, error_format);
Hash::hash(&1, hasher);
DepTrackingHash::hash(&self.1, hasher, error_format);
}
}
impl<T1, T2, T3> DepTrackingHash for (T1, T2, T3)
where
T1: DepTrackingHash,
T2: DepTrackingHash,
T3: DepTrackingHash,
{
fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
Hash::hash(&0, hasher);
DepTrackingHash::hash(&self.0, hasher, error_format);
Hash::hash(&1, hasher);
DepTrackingHash::hash(&self.1, hasher, error_format);
Hash::hash(&2, hasher);
DepTrackingHash::hash(&self.2, hasher, error_format);
}
}
// This is a stable hash because BTreeMap is a sorted container
pub fn stable_hash(
sub_hashes: BTreeMap<&'static str, &dyn DepTrackingHash>,
hasher: &mut DefaultHasher,
error_format: ErrorOutputType,
) {
for (key, sub_hash) in sub_hashes {
// Using Hash::hash() instead of DepTrackingHash::hash() is fine for
// the keys, as they are just plain strings
Hash::hash(&key.len(), hasher);
Hash::hash(key, hasher);
sub_hash.hash(hasher, error_format);
}
}
}