1 //! Contains infrastructure for configuring the compiler, including parsing
2 //! command line options.
6 use crate::session::{early_error, early_warn, Session};
7 use crate::session::search_paths::SearchPath;
9 use rustc_target::spec::{LinkerFlavor, MergeFunctions, PanicStrategy, RelroLevel};
10 use rustc_target::spec::{Target, TargetTriple};
12 use crate::middle::cstore;
15 use syntax::ast::{self, IntTy, UintTy, MetaItemKind};
16 use syntax::source_map::{FileName, FilePathMapping};
17 use syntax::edition::{Edition, EDITION_NAME_LIST, DEFAULT_EDITION};
18 use syntax::parse::token;
20 use syntax::symbol::{sym, Symbol};
21 use syntax::feature_gate::UnstableFeatures;
22 use errors::emitter::HumanReadableErrorType;
24 use errors::{ColorConfig, FatalError, Handler};
27 use std::collections::{BTreeMap, BTreeSet};
28 use std::collections::btree_map::Iter as BTreeMapIter;
29 use std::collections::btree_map::Keys as BTreeMapKeysIter;
30 use std::collections::btree_map::Values as BTreeMapValuesIter;
32 use rustc_data_structures::fx::FxHashSet;
34 use std::hash::Hasher;
35 use std::collections::hash_map::DefaultHasher;
36 use std::iter::FromIterator;
37 use std::path::{Path, PathBuf};
45 #[derive(Clone, Hash, Debug)]
53 #[derive(Clone, Copy, Debug, PartialEq, Hash)]
63 impl_stable_hash_via_hash!(OptLevel);
65 /// This is what the `LtoCli` values get mapped to after resolving defaults and
66 /// and taking other command line options into account.
67 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
69 /// Don't do any LTO whatsoever
72 /// Do a full crate graph LTO with ThinLTO
75 /// Do a local graph LTO with ThinLTO (only relevant for multiple codegen
79 /// Do a full crate graph LTO with "fat" LTO
83 /// The different settings that the `-C lto` flag can have.
84 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
96 /// No `-C lto` flag passed
100 #[derive(Clone, PartialEq, Hash)]
101 pub enum LinkerPluginLto {
102 LinkerPlugin(PathBuf),
107 impl LinkerPluginLto {
108 pub fn enabled(&self) -> bool {
110 LinkerPluginLto::LinkerPlugin(_) |
111 LinkerPluginLto::LinkerPluginAuto => true,
112 LinkerPluginLto::Disabled => false,
117 #[derive(Clone, PartialEq, Hash)]
118 pub enum SwitchWithOptPath {
119 Enabled(Option<PathBuf>),
123 impl SwitchWithOptPath {
124 pub fn enabled(&self) -> bool {
126 SwitchWithOptPath::Enabled(_) => true,
127 SwitchWithOptPath::Disabled => false,
132 #[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, RustcEncodable, RustcDecodable)]
133 pub enum SymbolManglingVersion {
138 impl_stable_hash_via_hash!(SymbolManglingVersion);
140 #[derive(Clone, Copy, PartialEq, Hash)]
147 #[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, PartialOrd, Ord, RustcEncodable, RustcDecodable)]
148 pub enum OutputType {
159 impl_stable_hash_via_hash!(OutputType);
162 fn is_compatible_with_codegen_units_and_single_output_file(&self) -> bool {
164 OutputType::Exe | OutputType::DepInfo | OutputType::Metadata => true,
166 | OutputType::Assembly
167 | OutputType::LlvmAssembly
169 | OutputType::Object => false,
173 fn shorthand(&self) -> &'static str {
175 OutputType::Bitcode => "llvm-bc",
176 OutputType::Assembly => "asm",
177 OutputType::LlvmAssembly => "llvm-ir",
178 OutputType::Mir => "mir",
179 OutputType::Object => "obj",
180 OutputType::Metadata => "metadata",
181 OutputType::Exe => "link",
182 OutputType::DepInfo => "dep-info",
186 fn from_shorthand(shorthand: &str) -> Option<Self> {
187 Some(match shorthand {
188 "asm" => OutputType::Assembly,
189 "llvm-ir" => OutputType::LlvmAssembly,
190 "mir" => OutputType::Mir,
191 "llvm-bc" => OutputType::Bitcode,
192 "obj" => OutputType::Object,
193 "metadata" => OutputType::Metadata,
194 "link" => OutputType::Exe,
195 "dep-info" => OutputType::DepInfo,
200 fn shorthands_display() -> String {
202 "`{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`",
203 OutputType::Bitcode.shorthand(),
204 OutputType::Assembly.shorthand(),
205 OutputType::LlvmAssembly.shorthand(),
206 OutputType::Mir.shorthand(),
207 OutputType::Object.shorthand(),
208 OutputType::Metadata.shorthand(),
209 OutputType::Exe.shorthand(),
210 OutputType::DepInfo.shorthand(),
214 pub fn extension(&self) -> &'static str {
216 OutputType::Bitcode => "bc",
217 OutputType::Assembly => "s",
218 OutputType::LlvmAssembly => "ll",
219 OutputType::Mir => "mir",
220 OutputType::Object => "o",
221 OutputType::Metadata => "rmeta",
222 OutputType::DepInfo => "d",
223 OutputType::Exe => "",
228 /// The type of diagnostics output to generate.
229 #[derive(Clone, Copy, Debug, PartialEq, Eq)]
230 pub enum ErrorOutputType {
231 /// Output meant for the consumption of humans.
232 HumanReadable(HumanReadableErrorType),
233 /// Output that's consumed by other tools such as `rustfix` or the `RLS`.
235 /// Render the JSON in a human readable way (with indents and newlines).
237 /// The JSON output includes a `rendered` field that includes the rendered
239 json_rendered: HumanReadableErrorType,
243 impl Default for ErrorOutputType {
244 fn default() -> ErrorOutputType {
245 ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(ColorConfig::Auto))
249 // Use tree-based collections to cheaply get a deterministic Hash implementation.
250 // DO NOT switch BTreeMap out for an unsorted container type! That would break
251 // dependency tracking for command-line arguments.
252 #[derive(Clone, Hash)]
253 pub struct OutputTypes(BTreeMap<OutputType, Option<PathBuf>>);
255 impl_stable_hash_via_hash!(OutputTypes);
258 pub fn new(entries: &[(OutputType, Option<PathBuf>)]) -> OutputTypes {
259 OutputTypes(BTreeMap::from_iter(
260 entries.iter().map(|&(k, ref v)| (k, v.clone())),
264 pub fn get(&self, key: &OutputType) -> Option<&Option<PathBuf>> {
268 pub fn contains_key(&self, key: &OutputType) -> bool {
269 self.0.contains_key(key)
272 pub fn keys(&self) -> BTreeMapKeysIter<'_, OutputType, Option<PathBuf>> {
276 pub fn values(&self) -> BTreeMapValuesIter<'_, OutputType, Option<PathBuf>> {
280 pub fn len(&self) -> usize {
284 // True if any of the output types require codegen or linking.
285 pub fn should_codegen(&self) -> bool {
286 self.0.keys().any(|k| match *k {
288 | OutputType::Assembly
289 | OutputType::LlvmAssembly
292 | OutputType::Exe => true,
293 OutputType::Metadata | OutputType::DepInfo => false,
298 // Use tree-based collections to cheaply get a deterministic Hash implementation.
299 // DO NOT switch BTreeMap or BTreeSet out for an unsorted container type! That
300 // would break dependency tracking for command-line arguments.
301 #[derive(Clone, Hash)]
302 pub struct Externs(BTreeMap<String, ExternEntry>);
304 #[derive(Clone, Hash, Eq, PartialEq, Ord, PartialOrd, Debug, Default)]
305 pub struct ExternEntry {
306 pub locations: BTreeSet<Option<String>>,
307 pub is_private_dep: bool
311 pub fn new(data: BTreeMap<String, ExternEntry>) -> Externs {
315 pub fn get(&self, key: &str) -> Option<&ExternEntry> {
319 pub fn iter(&self) -> BTreeMapIter<'_, String, ExternEntry> {
325 macro_rules! hash_option {
326 ($opt_name:ident, $opt_expr:expr, $sub_hashes:expr, [UNTRACKED]) => ({});
327 ($opt_name:ident, $opt_expr:expr, $sub_hashes:expr, [TRACKED]) => ({
328 if $sub_hashes.insert(stringify!($opt_name),
329 $opt_expr as &dyn dep_tracking::DepTrackingHash).is_some() {
330 bug!("Duplicate key in CLI DepTrackingHash: {}", stringify!($opt_name))
335 macro_rules! top_level_options {
336 (pub struct Options { $(
337 $opt:ident : $t:ty [$dep_tracking_marker:ident $($warn_val:expr, $warn_text:expr)*],
345 pub fn dep_tracking_hash(&self) -> u64 {
346 let mut sub_hashes = BTreeMap::new();
351 [$dep_tracking_marker $($warn_val,
353 self.error_format)*]);
355 let mut hasher = DefaultHasher::new();
356 dep_tracking::stable_hash(sub_hashes,
365 // The top-level command-line options struct
367 // For each option, one has to specify how it behaves with regard to the
368 // dependency tracking system of incremental compilation. This is done via the
369 // square-bracketed directive after the field type. The options are:
372 // A change in the given field will cause the compiler to completely clear the
373 // incremental compilation cache before proceeding.
376 // Incremental compilation is not influenced by this option.
378 // If you add a new option to this struct or one of the sub-structs like
379 // CodegenOptions, think about how it influences incremental compilation. If in
380 // doubt, specify [TRACKED], which is always "correct" but might lead to
381 // unnecessary re-compilation.
384 // The crate config requested for the session, which may be combined
385 // with additional crate configurations during the compile process
386 crate_types: Vec<CrateType> [TRACKED],
387 optimize: OptLevel [TRACKED],
388 // Include the debug_assertions flag into dependency tracking, since it
389 // can influence whether overflow checks are done or not.
390 debug_assertions: bool [TRACKED],
391 debuginfo: DebugInfo [TRACKED],
392 lint_opts: Vec<(String, lint::Level)> [TRACKED],
393 lint_cap: Option<lint::Level> [TRACKED],
394 describe_lints: bool [UNTRACKED],
395 output_types: OutputTypes [TRACKED],
396 search_paths: Vec<SearchPath> [UNTRACKED],
397 libs: Vec<(String, Option<String>, Option<cstore::NativeLibraryKind>)> [TRACKED],
398 maybe_sysroot: Option<PathBuf> [TRACKED],
400 target_triple: TargetTriple [TRACKED],
402 test: bool [TRACKED],
403 error_format: ErrorOutputType [UNTRACKED],
405 // if Some, enable incremental compilation, using the given
406 // directory to store intermediate results
407 incremental: Option<PathBuf> [UNTRACKED],
409 debugging_opts: DebuggingOptions [TRACKED],
410 prints: Vec<PrintRequest> [UNTRACKED],
411 // Determines which borrow checker(s) to run. This is the parsed, sanitized
412 // version of `debugging_opts.borrowck`, which is just a plain string.
413 borrowck_mode: BorrowckMode [UNTRACKED],
414 cg: CodegenOptions [TRACKED],
415 externs: Externs [UNTRACKED],
416 crate_name: Option<String> [TRACKED],
417 // An optional name to use as the crate for std during std injection,
418 // written `extern crate name as std`. Defaults to `std`. Used by
419 // out-of-tree drivers.
420 alt_std_name: Option<String> [TRACKED],
421 // Indicates how the compiler should treat unstable features
422 unstable_features: UnstableFeatures [TRACKED],
424 // Indicates whether this run of the compiler is actually rustdoc. This
425 // is currently just a hack and will be removed eventually, so please
426 // try to not rely on this too much.
427 actually_rustdoc: bool [TRACKED],
429 // Specifications of codegen units / ThinLTO which are forced as a
430 // result of parsing command line options. These are not necessarily
431 // what rustc was invoked with, but massaged a bit to agree with
432 // commands like `--emit llvm-ir` which they're often incompatible with
433 // if we otherwise use the defaults of rustc.
434 cli_forced_codegen_units: Option<usize> [UNTRACKED],
435 cli_forced_thinlto_off: bool [UNTRACKED],
437 // Remap source path prefixes in all output (messages, object files, debug, etc)
438 remap_path_prefix: Vec<(PathBuf, PathBuf)> [UNTRACKED],
440 edition: Edition [TRACKED],
444 #[derive(Copy, Clone, PartialEq, Eq, Debug)]
445 pub enum PrintRequest {
460 #[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
461 pub enum BorrowckMode {
467 /// Should we run the MIR-based borrow check, but also fall back
468 /// on the AST borrow check if the MIR-based one errors.
469 pub fn migrate(self) -> bool {
471 BorrowckMode::Mir => false,
472 BorrowckMode::Migrate => true,
476 /// Should we emit the AST-based borrow checker errors?
477 pub fn use_ast(self) -> bool {
479 BorrowckMode::Mir => false,
480 BorrowckMode::Migrate => false,
486 /// Loads source from file
489 /// String that is shown in place of a filename
491 /// Anonymous source string
497 pub fn filestem(&self) -> &str {
499 Input::File(ref ifile) => ifile.file_stem().unwrap().to_str().unwrap(),
500 Input::Str { .. } => "rust_out",
504 pub fn get_input(&mut self) -> Option<&mut String> {
506 Input::File(_) => None,
507 Input::Str { ref mut input, .. } => Some(input),
511 pub fn source_name(&self) -> FileName {
513 Input::File(ref ifile) => ifile.clone().into(),
514 Input::Str { ref name, .. } => name.clone(),
519 #[derive(Clone, Hash)]
520 pub struct OutputFilenames {
521 pub out_directory: PathBuf,
522 pub out_filestem: String,
523 pub single_output_file: Option<PathBuf>,
525 pub outputs: OutputTypes,
528 impl_stable_hash_via_hash!(OutputFilenames);
530 pub const RUST_CGU_EXT: &str = "rcgu";
532 impl OutputFilenames {
533 pub fn path(&self, flavor: OutputType) -> PathBuf {
536 .and_then(|p| p.to_owned())
537 .or_else(|| self.single_output_file.clone())
538 .unwrap_or_else(|| self.temp_path(flavor, None))
541 /// Gets the path where a compilation artifact of the given type for the
542 /// given codegen unit should be placed on disk. If codegen_unit_name is
543 /// None, a path distinct from those of any codegen unit will be generated.
544 pub fn temp_path(&self, flavor: OutputType, codegen_unit_name: Option<&str>) -> PathBuf {
545 let extension = flavor.extension();
546 self.temp_path_ext(extension, codegen_unit_name)
549 /// Like temp_path, but also supports things where there is no corresponding
550 /// OutputType, like noopt-bitcode or lto-bitcode.
551 pub fn temp_path_ext(&self, ext: &str, codegen_unit_name: Option<&str>) -> PathBuf {
552 let base = self.out_directory.join(&self.filestem());
554 let mut extension = String::new();
556 if let Some(codegen_unit_name) = codegen_unit_name {
557 extension.push_str(codegen_unit_name);
561 if !extension.is_empty() {
562 extension.push_str(".");
563 extension.push_str(RUST_CGU_EXT);
564 extension.push_str(".");
567 extension.push_str(ext);
570 let path = base.with_extension(&extension[..]);
574 pub fn with_extension(&self, extension: &str) -> PathBuf {
576 .join(&self.filestem())
577 .with_extension(extension)
580 pub fn filestem(&self) -> String {
581 format!("{}{}", self.out_filestem, self.extra)
585 pub fn host_triple() -> &'static str {
586 // Get the host triple out of the build environment. This ensures that our
587 // idea of the host triple is the same as for the set of libraries we've
588 // actually built. We can't just take LLVM's host triple because they
589 // normalize all ix86 architectures to i386.
591 // Instead of grabbing the host triple (for the current host), we grab (at
592 // compile time) the target triple that this rustc is built with and
593 // calling that (at runtime) the host triple.
594 (option_env!("CFG_COMPILER_HOST_TRIPLE")).expect("CFG_COMPILER_HOST_TRIPLE")
597 impl Default for Options {
598 fn default() -> Options {
600 crate_types: Vec::new(),
601 optimize: OptLevel::No,
602 debuginfo: DebugInfo::None,
603 lint_opts: Vec::new(),
605 describe_lints: false,
606 output_types: OutputTypes(BTreeMap::new()),
607 search_paths: vec![],
609 target_triple: TargetTriple::from_triple(host_triple()),
612 debugging_opts: basic_debugging_options(),
614 borrowck_mode: BorrowckMode::Migrate,
615 cg: basic_codegen_options(),
616 error_format: ErrorOutputType::default(),
617 externs: Externs(BTreeMap::new()),
621 unstable_features: UnstableFeatures::Disallow,
622 debug_assertions: true,
623 actually_rustdoc: false,
624 cli_forced_codegen_units: None,
625 cli_forced_thinlto_off: false,
626 remap_path_prefix: Vec::new(),
627 edition: DEFAULT_EDITION,
633 /// Returns `true` if there is a reason to build the dep graph.
634 pub fn build_dep_graph(&self) -> bool {
635 self.incremental.is_some() || self.debugging_opts.dump_dep_graph
636 || self.debugging_opts.query_dep_graph
640 pub fn enable_dep_node_debug_strs(&self) -> bool {
641 cfg!(debug_assertions)
642 && (self.debugging_opts.query_dep_graph || self.debugging_opts.incremental_info)
645 pub fn file_path_mapping(&self) -> FilePathMapping {
646 FilePathMapping::new(self.remap_path_prefix.clone())
649 /// Returns `true` if there will be an output file generated
650 pub fn will_create_output_file(&self) -> bool {
651 !self.debugging_opts.parse_only && // The file is just being parsed
652 !self.debugging_opts.ls // The file is just being queried
656 pub fn share_generics(&self) -> bool {
657 match self.debugging_opts.share_generics {
658 Some(setting) => setting,
660 match self.optimize {
664 OptLevel::SizeMin => true,
666 OptLevel::Aggressive => false,
673 // The type of entry function, so users can have their own entry functions
674 #[derive(Copy, Clone, PartialEq, Hash, Debug)]
675 pub enum EntryFnType {
680 impl_stable_hash_via_hash!(EntryFnType);
682 #[derive(Copy, PartialEq, PartialOrd, Clone, Ord, Eq, Hash, Debug)]
692 #[derive(Clone, Hash)]
699 pub fn is_empty(&self) -> bool {
701 Passes::Some(ref v) => v.is_empty(),
702 Passes::All => false,
707 /// Declare a macro that will define all CodegenOptions/DebuggingOptions fields and parsers all
708 /// at once. The goal of this macro is to define an interface that can be
709 /// programmatically used by the option parser in order to initialize the struct
710 /// without hardcoding field names all over the place.
712 /// The goal is to invoke this macro once with the correct fields, and then this
713 /// macro generates all necessary code. The main gotcha of this macro is the
714 /// cgsetters module which is a bunch of generated code to parse an option into
715 /// its respective field in the struct. There are a few hand-written parsers for
716 /// parsing specific types of values in this module.
717 macro_rules! options {
718 ($struct_name:ident, $setter_name:ident, $defaultfn:ident,
719 $buildfn:ident, $prefix:expr, $outputname:expr,
720 $stat:ident, $mod_desc:ident, $mod_set:ident,
721 $($opt:ident : $t:ty = (
724 [$dep_tracking_marker:ident $(($dep_warn_val:expr, $dep_warn_text:expr))*],
729 pub struct $struct_name { $(pub $opt: $t),* }
731 pub fn $defaultfn() -> $struct_name {
732 $struct_name { $($opt: $init),* }
735 pub fn $buildfn(matches: &getopts::Matches, error_format: ErrorOutputType) -> $struct_name
737 let mut op = $defaultfn();
738 for option in matches.opt_strs($prefix) {
739 let mut iter = option.splitn(2, '=');
740 let key = iter.next().unwrap();
741 let value = iter.next();
742 let option_to_lookup = key.replace("-", "_");
743 let mut found = false;
744 for &(candidate, setter, opt_type_desc, _) in $stat {
745 if option_to_lookup != candidate { continue }
746 if !setter(&mut op, value) {
747 match (value, opt_type_desc) {
748 (Some(..), None) => {
749 early_error(error_format, &format!("{} option `{}` takes no \
750 value", $outputname, key))
752 (None, Some(type_desc)) => {
753 early_error(error_format, &format!("{0} option `{1}` requires \
754 {2} ({3} {1}=<value>)",
758 (Some(value), Some(type_desc)) => {
759 early_error(error_format, &format!("incorrect value `{}` for {} \
760 option `{}` - {} was expected",
764 (None, None) => bug!()
771 early_error(error_format, &format!("unknown {} option: `{}`",
778 impl dep_tracking::DepTrackingHash for $struct_name {
779 fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
780 let mut sub_hashes = BTreeMap::new();
785 [$dep_tracking_marker $($dep_warn_val,
789 dep_tracking::stable_hash(sub_hashes, hasher, error_format);
793 pub type $setter_name = fn(&mut $struct_name, v: Option<&str>) -> bool;
794 pub const $stat: &[(&str, $setter_name, Option<&str>, &str)] =
795 &[ $( (stringify!($opt), $mod_set::$opt, $mod_desc::$parse, $desc) ),* ];
797 #[allow(non_upper_case_globals, dead_code)]
799 pub const parse_bool: Option<&str> = None;
800 pub const parse_opt_bool: Option<&str> =
801 Some("one of: `y`, `yes`, `on`, `n`, `no`, or `off`");
802 pub const parse_string: Option<&str> = Some("a string");
803 pub const parse_string_push: Option<&str> = Some("a string");
804 pub const parse_pathbuf_push: Option<&str> = Some("a path");
805 pub const parse_opt_string: Option<&str> = Some("a string");
806 pub const parse_opt_pathbuf: Option<&str> = Some("a path");
807 pub const parse_list: Option<&str> = Some("a space-separated list of strings");
808 pub const parse_opt_list: Option<&str> = Some("a space-separated list of strings");
809 pub const parse_opt_comma_list: Option<&str> = Some("a comma-separated list of strings");
810 pub const parse_uint: Option<&str> = Some("a number");
811 pub const parse_passes: Option<&str> =
812 Some("a space-separated list of passes, or `all`");
813 pub const parse_opt_uint: Option<&str> =
815 pub const parse_panic_strategy: Option<&str> =
816 Some("either `unwind` or `abort`");
817 pub const parse_relro_level: Option<&str> =
818 Some("one of: `full`, `partial`, or `off`");
819 pub const parse_sanitizer: Option<&str> =
820 Some("one of: `address`, `leak`, `memory` or `thread`");
821 pub const parse_linker_flavor: Option<&str> =
822 Some(::rustc_target::spec::LinkerFlavor::one_of());
823 pub const parse_optimization_fuel: Option<&str> =
824 Some("crate=integer");
825 pub const parse_unpretty: Option<&str> =
826 Some("`string` or `string=string`");
827 pub const parse_treat_err_as_bug: Option<&str> =
828 Some("either no value or a number bigger than 0");
829 pub const parse_lto: Option<&str> =
830 Some("either a boolean (`yes`, `no`, `on`, `off`, etc), `thin`, \
832 pub const parse_linker_plugin_lto: Option<&str> =
833 Some("either a boolean (`yes`, `no`, `on`, `off`, etc), \
834 or the path to the linker plugin");
835 pub const parse_switch_with_opt_path: Option<&str> =
836 Some("an optional path to the profiling data output directory");
837 pub const parse_merge_functions: Option<&str> =
838 Some("one of: `disabled`, `trampolines`, or `aliases`");
839 pub const parse_symbol_mangling_version: Option<&str> =
840 Some("either `legacy` or `v0` (RFC 2603)");
845 use super::{$struct_name, Passes, Sanitizer, LtoCli, LinkerPluginLto, SwitchWithOptPath,
846 SymbolManglingVersion};
847 use rustc_target::spec::{LinkerFlavor, MergeFunctions, PanicStrategy, RelroLevel};
848 use std::path::PathBuf;
849 use std::str::FromStr;
852 pub fn $opt(cg: &mut $struct_name, v: Option<&str>) -> bool {
853 $parse(&mut cg.$opt, v)
857 fn parse_bool(slot: &mut bool, v: Option<&str>) -> bool {
860 None => { *slot = true; true }
864 fn parse_opt_bool(slot: &mut Option<bool>, v: Option<&str>) -> bool {
868 "n" | "no" | "off" => {
871 "y" | "yes" | "on" => {
874 _ => { return false; }
879 None => { *slot = Some(true); true }
883 fn parse_opt_string(slot: &mut Option<String>, v: Option<&str>) -> bool {
885 Some(s) => { *slot = Some(s.to_string()); true },
890 fn parse_opt_pathbuf(slot: &mut Option<PathBuf>, v: Option<&str>) -> bool {
892 Some(s) => { *slot = Some(PathBuf::from(s)); true },
897 fn parse_string(slot: &mut String, v: Option<&str>) -> bool {
899 Some(s) => { *slot = s.to_string(); true },
904 fn parse_string_push(slot: &mut Vec<String>, v: Option<&str>) -> bool {
906 Some(s) => { slot.push(s.to_string()); true },
911 fn parse_pathbuf_push(slot: &mut Vec<PathBuf>, v: Option<&str>) -> bool {
913 Some(s) => { slot.push(PathBuf::from(s)); true },
918 fn parse_list(slot: &mut Vec<String>, v: Option<&str>)
922 slot.extend(s.split_whitespace().map(|s| s.to_string()));
929 fn parse_opt_list(slot: &mut Option<Vec<String>>, v: Option<&str>)
933 let v = s.split_whitespace().map(|s| s.to_string()).collect();
941 fn parse_opt_comma_list(slot: &mut Option<Vec<String>>, v: Option<&str>)
945 let v = s.split(',').map(|s| s.to_string()).collect();
953 fn parse_uint(slot: &mut usize, v: Option<&str>) -> bool {
954 match v.and_then(|s| s.parse().ok()) {
955 Some(i) => { *slot = i; true },
960 fn parse_opt_uint(slot: &mut Option<usize>, v: Option<&str>) -> bool {
962 Some(s) => { *slot = s.parse().ok(); slot.is_some() }
963 None => { *slot = None; false }
967 fn parse_passes(slot: &mut Passes, v: Option<&str>) -> bool {
974 let mut passes = vec![];
975 if parse_list(&mut passes, v) {
976 *slot = Passes::Some(passes);
985 fn parse_panic_strategy(slot: &mut Option<PanicStrategy>, v: Option<&str>) -> bool {
987 Some("unwind") => *slot = Some(PanicStrategy::Unwind),
988 Some("abort") => *slot = Some(PanicStrategy::Abort),
994 fn parse_relro_level(slot: &mut Option<RelroLevel>, v: Option<&str>) -> bool {
997 match s.parse::<RelroLevel>() {
998 Ok(level) => *slot = Some(level),
1007 fn parse_sanitizer(slote: &mut Option<Sanitizer>, v: Option<&str>) -> bool {
1009 Some("address") => *slote = Some(Sanitizer::Address),
1010 Some("leak") => *slote = Some(Sanitizer::Leak),
1011 Some("memory") => *slote = Some(Sanitizer::Memory),
1012 Some("thread") => *slote = Some(Sanitizer::Thread),
1018 fn parse_linker_flavor(slote: &mut Option<LinkerFlavor>, v: Option<&str>) -> bool {
1019 match v.and_then(LinkerFlavor::from_str) {
1020 Some(lf) => *slote = Some(lf),
1026 fn parse_optimization_fuel(slot: &mut Option<(String, u64)>, v: Option<&str>) -> bool {
1030 let parts = s.split('=').collect::<Vec<_>>();
1031 if parts.len() != 2 { return false; }
1032 let crate_name = parts[0].to_string();
1033 let fuel = parts[1].parse::<u64>();
1034 if fuel.is_err() { return false; }
1035 *slot = Some((crate_name, fuel.unwrap()));
1041 fn parse_unpretty(slot: &mut Option<String>, v: Option<&str>) -> bool {
1044 Some(s) if s.split('=').count() <= 2 => {
1045 *slot = Some(s.to_string());
1052 fn parse_treat_err_as_bug(slot: &mut Option<usize>, v: Option<&str>) -> bool {
1054 Some(s) => { *slot = s.parse().ok().filter(|&x| x != 0); slot.unwrap_or(0) != 0 }
1055 None => { *slot = Some(1); true }
1059 fn parse_lto(slot: &mut LtoCli, v: Option<&str>) -> bool {
1061 let mut bool_arg = None;
1062 if parse_opt_bool(&mut bool_arg, v) {
1063 *slot = if bool_arg.unwrap() {
1073 None => LtoCli::NoParam,
1074 Some("thin") => LtoCli::Thin,
1075 Some("fat") => LtoCli::Fat,
1076 Some(_) => return false,
1081 fn parse_linker_plugin_lto(slot: &mut LinkerPluginLto, v: Option<&str>) -> bool {
1083 let mut bool_arg = None;
1084 if parse_opt_bool(&mut bool_arg, v) {
1085 *slot = if bool_arg.unwrap() {
1086 LinkerPluginLto::LinkerPluginAuto
1088 LinkerPluginLto::Disabled
1095 None => LinkerPluginLto::LinkerPluginAuto,
1096 Some(path) => LinkerPluginLto::LinkerPlugin(PathBuf::from(path)),
1101 fn parse_switch_with_opt_path(slot: &mut SwitchWithOptPath, v: Option<&str>) -> bool {
1103 None => SwitchWithOptPath::Enabled(None),
1104 Some(path) => SwitchWithOptPath::Enabled(Some(PathBuf::from(path))),
1109 fn parse_merge_functions(slot: &mut Option<MergeFunctions>, v: Option<&str>) -> bool {
1110 match v.and_then(|s| MergeFunctions::from_str(s).ok()) {
1111 Some(mergefunc) => *slot = Some(mergefunc),
1117 fn parse_symbol_mangling_version(
1118 slot: &mut SymbolManglingVersion,
1122 Some("legacy") => SymbolManglingVersion::Legacy,
1123 Some("v0") => SymbolManglingVersion::V0,
1131 options! {CodegenOptions, CodegenSetter, basic_codegen_options,
1132 build_codegen_options, "C", "codegen",
1133 CG_OPTIONS, cg_type_desc, cgsetters,
1134 ar: Option<String> = (None, parse_opt_string, [UNTRACKED],
1135 "this option is deprecated and does nothing"),
1136 linker: Option<PathBuf> = (None, parse_opt_pathbuf, [UNTRACKED],
1137 "system linker to link outputs with"),
1138 link_arg: Vec<String> = (vec![], parse_string_push, [UNTRACKED],
1139 "a single extra argument to append to the linker invocation (can be used several times)"),
1140 link_args: Option<Vec<String>> = (None, parse_opt_list, [UNTRACKED],
1141 "extra arguments to append to the linker invocation (space separated)"),
1142 link_dead_code: bool = (false, parse_bool, [UNTRACKED],
1143 "don't let linker strip dead code (turning it on can be used for code coverage)"),
1144 lto: LtoCli = (LtoCli::Unspecified, parse_lto, [TRACKED],
1145 "perform LLVM link-time optimizations"),
1146 target_cpu: Option<String> = (None, parse_opt_string, [TRACKED],
1147 "select target processor (`rustc --print target-cpus` for details)"),
1148 target_feature: String = (String::new(), parse_string, [TRACKED],
1149 "target specific attributes (`rustc --print target-features` for details)"),
1150 passes: Vec<String> = (Vec::new(), parse_list, [TRACKED],
1151 "a list of extra LLVM passes to run (space separated)"),
1152 llvm_args: Vec<String> = (Vec::new(), parse_list, [TRACKED],
1153 "a list of arguments to pass to llvm (space separated)"),
1154 save_temps: bool = (false, parse_bool, [UNTRACKED],
1155 "save all temporary output files during compilation"),
1156 rpath: bool = (false, parse_bool, [UNTRACKED],
1157 "set rpath values in libs/exes"),
1158 overflow_checks: Option<bool> = (None, parse_opt_bool, [TRACKED],
1159 "use overflow checks for integer arithmetic"),
1160 no_prepopulate_passes: bool = (false, parse_bool, [TRACKED],
1161 "don't pre-populate the pass manager with a list of passes"),
1162 no_vectorize_loops: bool = (false, parse_bool, [TRACKED],
1163 "don't run the loop vectorization optimization passes"),
1164 no_vectorize_slp: bool = (false, parse_bool, [TRACKED],
1165 "don't run LLVM's SLP vectorization pass"),
1166 soft_float: bool = (false, parse_bool, [TRACKED],
1167 "use soft float ABI (*eabihf targets only)"),
1168 prefer_dynamic: bool = (false, parse_bool, [TRACKED],
1169 "prefer dynamic linking to static linking"),
1170 no_integrated_as: bool = (false, parse_bool, [TRACKED],
1171 "use an external assembler rather than LLVM's integrated one"),
1172 no_redzone: Option<bool> = (None, parse_opt_bool, [TRACKED],
1173 "disable the use of the redzone"),
1174 relocation_model: Option<String> = (None, parse_opt_string, [TRACKED],
1175 "choose the relocation model to use (`rustc --print relocation-models` for details)"),
1176 code_model: Option<String> = (None, parse_opt_string, [TRACKED],
1177 "choose the code model to use (`rustc --print code-models` for details)"),
1178 metadata: Vec<String> = (Vec::new(), parse_list, [TRACKED],
1179 "metadata to mangle symbol names with"),
1180 extra_filename: String = (String::new(), parse_string, [UNTRACKED],
1181 "extra data to put in each output filename"),
1182 codegen_units: Option<usize> = (None, parse_opt_uint, [UNTRACKED],
1183 "divide crate into N units to optimize in parallel"),
1184 remark: Passes = (Passes::Some(Vec::new()), parse_passes, [UNTRACKED],
1185 "print remarks for these optimization passes (space separated, or \"all\")"),
1186 no_stack_check: bool = (false, parse_bool, [UNTRACKED],
1187 "the `--no-stack-check` flag is deprecated and does nothing"),
1188 debuginfo: Option<usize> = (None, parse_opt_uint, [TRACKED],
1189 "debug info emission level, 0 = no debug info, 1 = line tables only, \
1190 2 = full debug info with variable and type information"),
1191 opt_level: Option<String> = (None, parse_opt_string, [TRACKED],
1192 "optimize with possible levels 0-3, s, or z"),
1193 force_frame_pointers: Option<bool> = (None, parse_opt_bool, [TRACKED],
1194 "force use of the frame pointers"),
1195 debug_assertions: Option<bool> = (None, parse_opt_bool, [TRACKED],
1196 "explicitly enable the cfg(debug_assertions) directive"),
1197 inline_threshold: Option<usize> = (None, parse_opt_uint, [TRACKED],
1198 "set the threshold for inlining a function (default: 225)"),
1199 panic: Option<PanicStrategy> = (None, parse_panic_strategy,
1200 [TRACKED], "panic strategy to compile crate with"),
1201 incremental: Option<String> = (None, parse_opt_string, [UNTRACKED],
1202 "enable incremental compilation"),
1203 default_linker_libraries: Option<bool> = (None, parse_opt_bool, [UNTRACKED],
1204 "allow the linker to link its default libraries"),
1205 linker_flavor: Option<LinkerFlavor> = (None, parse_linker_flavor, [UNTRACKED],
1207 linker_plugin_lto: LinkerPluginLto = (LinkerPluginLto::Disabled,
1208 parse_linker_plugin_lto, [TRACKED],
1209 "generate build artifacts that are compatible with linker-based LTO."),
1210 profile_generate: SwitchWithOptPath = (SwitchWithOptPath::Disabled,
1211 parse_switch_with_opt_path, [TRACKED],
1212 "compile the program with profiling instrumentation"),
1213 profile_use: Option<PathBuf> = (None, parse_opt_pathbuf, [TRACKED],
1214 "use the given `.profdata` file for profile-guided optimization"),
1217 options! {DebuggingOptions, DebuggingSetter, basic_debugging_options,
1218 build_debugging_options, "Z", "debugging",
1219 DB_OPTIONS, db_type_desc, dbsetters,
1220 codegen_backend: Option<String> = (None, parse_opt_string, [TRACKED],
1221 "the backend to use"),
1222 verbose: bool = (false, parse_bool, [UNTRACKED],
1223 "in general, enable more debug printouts"),
1224 span_free_formats: bool = (false, parse_bool, [UNTRACKED],
1225 "when debug-printing compiler state, do not include spans"), // o/w tests have closure@path
1226 identify_regions: bool = (false, parse_bool, [UNTRACKED],
1227 "make unnamed regions display as '# (where # is some non-ident unique id)"),
1228 borrowck: Option<String> = (None, parse_opt_string, [UNTRACKED],
1229 "select which borrowck is used (`mir` or `migrate`)"),
1230 time_passes: bool = (false, parse_bool, [UNTRACKED],
1231 "measure time of each rustc pass"),
1232 time: bool = (false, parse_bool, [UNTRACKED],
1233 "measure time of rustc processes"),
1234 time_llvm_passes: bool = (false, parse_bool, [UNTRACKED],
1235 "measure time of each LLVM pass"),
1236 input_stats: bool = (false, parse_bool, [UNTRACKED],
1237 "gather statistics about the input"),
1238 asm_comments: bool = (false, parse_bool, [TRACKED],
1239 "generate comments into the assembly (may change behavior)"),
1240 verify_llvm_ir: bool = (false, parse_bool, [TRACKED],
1242 borrowck_stats: bool = (false, parse_bool, [UNTRACKED],
1243 "gather borrowck statistics"),
1244 no_landing_pads: bool = (false, parse_bool, [TRACKED],
1245 "omit landing pads for unwinding"),
1246 fewer_names: bool = (false, parse_bool, [TRACKED],
1247 "reduce memory use by retaining fewer names within compilation artifacts (LLVM-IR)"),
1248 meta_stats: bool = (false, parse_bool, [UNTRACKED],
1249 "gather metadata statistics"),
1250 print_link_args: bool = (false, parse_bool, [UNTRACKED],
1251 "print the arguments passed to the linker"),
1252 print_llvm_passes: bool = (false, parse_bool, [UNTRACKED],
1253 "prints the llvm optimization passes being run"),
1254 ast_json: bool = (false, parse_bool, [UNTRACKED],
1255 "print the AST as JSON and halt"),
1256 threads: Option<usize> = (None, parse_opt_uint, [UNTRACKED],
1257 "use a thread pool with N threads"),
1258 ast_json_noexpand: bool = (false, parse_bool, [UNTRACKED],
1259 "print the pre-expansion AST as JSON and halt"),
1260 ls: bool = (false, parse_bool, [UNTRACKED],
1261 "list the symbols defined by a library crate"),
1262 save_analysis: bool = (false, parse_bool, [UNTRACKED],
1263 "write syntax and type analysis (in JSON format) information, in \
1264 addition to normal output"),
1265 flowgraph_print_loans: bool = (false, parse_bool, [UNTRACKED],
1266 "include loan analysis data in -Z unpretty flowgraph output"),
1267 flowgraph_print_moves: bool = (false, parse_bool, [UNTRACKED],
1268 "include move analysis data in -Z unpretty flowgraph output"),
1269 flowgraph_print_assigns: bool = (false, parse_bool, [UNTRACKED],
1270 "include assignment analysis data in -Z unpretty flowgraph output"),
1271 flowgraph_print_all: bool = (false, parse_bool, [UNTRACKED],
1272 "include all dataflow analysis data in -Z unpretty flowgraph output"),
1273 print_region_graph: bool = (false, parse_bool, [UNTRACKED],
1274 "prints region inference graph. \
1275 Use with RUST_REGION_GRAPH=help for more info"),
1276 parse_only: bool = (false, parse_bool, [UNTRACKED],
1277 "parse only; do not compile, assemble, or link"),
1278 dual_proc_macros: bool = (false, parse_bool, [TRACKED],
1279 "load proc macros for both target and host, but only link to the target"),
1280 no_codegen: bool = (false, parse_bool, [TRACKED],
1281 "run all passes except codegen; no output"),
1282 treat_err_as_bug: Option<usize> = (None, parse_treat_err_as_bug, [TRACKED],
1283 "treat error number `val` that occurs as bug"),
1284 report_delayed_bugs: bool = (false, parse_bool, [TRACKED],
1285 "immediately print bugs registered with `delay_span_bug`"),
1286 external_macro_backtrace: bool = (false, parse_bool, [UNTRACKED],
1287 "show macro backtraces even for non-local macros"),
1288 teach: bool = (false, parse_bool, [TRACKED],
1289 "show extended diagnostic help"),
1290 continue_parse_after_error: bool = (false, parse_bool, [TRACKED],
1291 "attempt to recover from parse errors (experimental)"),
1292 dep_tasks: bool = (false, parse_bool, [UNTRACKED],
1293 "print tasks that execute and the color their dep node gets (requires debug build)"),
1294 incremental: Option<String> = (None, parse_opt_string, [UNTRACKED],
1295 "enable incremental compilation (experimental)"),
1296 incremental_queries: bool = (true, parse_bool, [UNTRACKED],
1297 "enable incremental compilation support for queries (experimental)"),
1298 incremental_info: bool = (false, parse_bool, [UNTRACKED],
1299 "print high-level information about incremental reuse (or the lack thereof)"),
1300 incremental_dump_hash: bool = (false, parse_bool, [UNTRACKED],
1301 "dump hash information in textual format to stdout"),
1302 incremental_verify_ich: bool = (false, parse_bool, [UNTRACKED],
1303 "verify incr. comp. hashes of green query instances"),
1304 incremental_ignore_spans: bool = (false, parse_bool, [UNTRACKED],
1305 "ignore spans during ICH computation -- used for testing"),
1306 instrument_mcount: bool = (false, parse_bool, [TRACKED],
1307 "insert function instrument code for mcount-based tracing"),
1308 dump_dep_graph: bool = (false, parse_bool, [UNTRACKED],
1309 "dump the dependency graph to $RUST_DEP_GRAPH (default: /tmp/dep_graph.gv)"),
1310 query_dep_graph: bool = (false, parse_bool, [UNTRACKED],
1311 "enable queries of the dependency graph for regression testing"),
1312 profile_queries: bool = (false, parse_bool, [UNTRACKED],
1313 "trace and profile the queries of the incremental compilation framework"),
1314 profile_queries_and_keys: bool = (false, parse_bool, [UNTRACKED],
1315 "trace and profile the queries and keys of the incremental compilation framework"),
1316 no_analysis: bool = (false, parse_bool, [UNTRACKED],
1317 "parse and expand the source, but run no analysis"),
1318 extra_plugins: Vec<String> = (Vec::new(), parse_list, [TRACKED],
1319 "load extra plugins"),
1320 unstable_options: bool = (false, parse_bool, [UNTRACKED],
1321 "adds unstable command line options to rustc interface"),
1322 force_overflow_checks: Option<bool> = (None, parse_opt_bool, [TRACKED],
1323 "force overflow checks on or off"),
1324 trace_macros: bool = (false, parse_bool, [UNTRACKED],
1325 "for every macro invocation, print its name and arguments"),
1326 debug_macros: bool = (false, parse_bool, [TRACKED],
1327 "emit line numbers debug info inside macros"),
1328 keep_hygiene_data: bool = (false, parse_bool, [UNTRACKED],
1329 "don't clear the hygiene data after analysis"),
1330 keep_ast: bool = (false, parse_bool, [UNTRACKED],
1331 "keep the AST after lowering it to HIR"),
1332 show_span: Option<String> = (None, parse_opt_string, [TRACKED],
1333 "show spans for compiler debugging (expr|pat|ty)"),
1334 print_type_sizes: bool = (false, parse_bool, [UNTRACKED],
1335 "print layout information for each type encountered"),
1336 print_mono_items: Option<String> = (None, parse_opt_string, [UNTRACKED],
1337 "print the result of the monomorphization collection pass"),
1338 mir_opt_level: usize = (1, parse_uint, [TRACKED],
1339 "set the MIR optimization level (0-3, default: 1)"),
1340 mutable_noalias: Option<bool> = (None, parse_opt_bool, [TRACKED],
1341 "emit noalias metadata for mutable references (default: yes on LLVM >= 6)"),
1342 dump_mir: Option<String> = (None, parse_opt_string, [UNTRACKED],
1343 "dump MIR state to file.
1344 `val` is used to select which passes and functions to dump. For example:
1345 `all` matches all passes and functions,
1346 `foo` matches all passes for functions whose name contains 'foo',
1347 `foo & ConstProp` only the 'ConstProp' pass for function names containing 'foo',
1348 `foo | bar` all passes for function names containing 'foo' or 'bar'."),
1350 dump_mir_dir: String = (String::from("mir_dump"), parse_string, [UNTRACKED],
1351 "the directory the MIR is dumped into"),
1352 dump_mir_graphviz: bool = (false, parse_bool, [UNTRACKED],
1353 "in addition to `.mir` files, create graphviz `.dot` files"),
1354 dump_mir_exclude_pass_number: bool = (false, parse_bool, [UNTRACKED],
1355 "if set, exclude the pass number when dumping MIR (used in tests)"),
1356 mir_emit_retag: bool = (false, parse_bool, [TRACKED],
1357 "emit Retagging MIR statements, interpreted e.g., by miri; implies -Zmir-opt-level=0"),
1358 perf_stats: bool = (false, parse_bool, [UNTRACKED],
1359 "print some performance-related statistics"),
1360 query_stats: bool = (false, parse_bool, [UNTRACKED],
1361 "print some statistics about the query system"),
1362 hir_stats: bool = (false, parse_bool, [UNTRACKED],
1363 "print some statistics about AST and HIR"),
1364 always_encode_mir: bool = (false, parse_bool, [TRACKED],
1365 "encode MIR of all functions into the crate metadata"),
1366 json_rendered: Option<String> = (None, parse_opt_string, [UNTRACKED],
1367 "describes how to render the `rendered` field of json diagnostics"),
1368 unleash_the_miri_inside_of_you: bool = (false, parse_bool, [TRACKED],
1369 "take the breaks off const evaluation. NOTE: this is unsound"),
1370 osx_rpath_install_name: bool = (false, parse_bool, [TRACKED],
1371 "pass `-install_name @rpath/...` to the macOS linker"),
1372 sanitizer: Option<Sanitizer> = (None, parse_sanitizer, [TRACKED],
1374 fuel: Option<(String, u64)> = (None, parse_optimization_fuel, [TRACKED],
1375 "set the optimization fuel quota for a crate"),
1376 print_fuel: Option<String> = (None, parse_opt_string, [TRACKED],
1377 "make Rustc print the total optimization fuel used by a crate"),
1378 force_unstable_if_unmarked: bool = (false, parse_bool, [TRACKED],
1379 "force all crates to be `rustc_private` unstable"),
1380 pre_link_arg: Vec<String> = (vec![], parse_string_push, [UNTRACKED],
1381 "a single extra argument to prepend the linker invocation (can be used several times)"),
1382 pre_link_args: Option<Vec<String>> = (None, parse_opt_list, [UNTRACKED],
1383 "extra arguments to prepend to the linker invocation (space separated)"),
1384 profile: bool = (false, parse_bool, [TRACKED],
1385 "insert profiling code"),
1386 disable_instrumentation_preinliner: bool = (false, parse_bool, [TRACKED],
1387 "Disable the instrumentation pre-inliner, useful for profiling / PGO."),
1388 relro_level: Option<RelroLevel> = (None, parse_relro_level, [TRACKED],
1389 "choose which RELRO level to use"),
1390 nll_facts: bool = (false, parse_bool, [UNTRACKED],
1391 "dump facts from NLL analysis into side files"),
1392 nll_dont_emit_read_for_match: bool = (false, parse_bool, [UNTRACKED],
1393 "in match codegen, do not include FakeRead statements (used by mir-borrowck)"),
1394 dont_buffer_diagnostics: bool = (false, parse_bool, [UNTRACKED],
1395 "emit diagnostics rather than buffering (breaks NLL error downgrading, sorting)."),
1396 polonius: bool = (false, parse_bool, [UNTRACKED],
1397 "enable polonius-based borrow-checker"),
1398 codegen_time_graph: bool = (false, parse_bool, [UNTRACKED],
1399 "generate a graphical HTML report of time spent in codegen and LLVM"),
1400 thinlto: Option<bool> = (None, parse_opt_bool, [TRACKED],
1401 "enable ThinLTO when possible"),
1402 inline_in_all_cgus: Option<bool> = (None, parse_opt_bool, [TRACKED],
1403 "control whether `#[inline]` functions are in all CGUs"),
1404 tls_model: Option<String> = (None, parse_opt_string, [TRACKED],
1405 "choose the TLS model to use (`rustc --print tls-models` for details)"),
1406 saturating_float_casts: bool = (false, parse_bool, [TRACKED],
1407 "make float->int casts UB-free: numbers outside the integer type's range are clipped to \
1408 the max/min integer respectively, and NaN is mapped to 0"),
1409 human_readable_cgu_names: bool = (false, parse_bool, [TRACKED],
1410 "generate human-readable, predictable names for codegen units"),
1411 dep_info_omit_d_target: bool = (false, parse_bool, [TRACKED],
1412 "in dep-info output, omit targets for tracking dependencies of the dep-info files \
1414 unpretty: Option<String> = (None, parse_unpretty, [UNTRACKED],
1415 "Present the input source, unstable (and less-pretty) variants;
1416 valid types are any of the types for `--pretty`, as well as:
1417 `expanded`, `expanded,identified`,
1418 `expanded,hygiene` (with internal representations),
1419 `flowgraph=<nodeid>` (graphviz formatted flowgraph for node),
1420 `flowgraph,unlabelled=<nodeid>` (unlabelled graphviz formatted flowgraph for node),
1421 `everybody_loops` (all function bodies replaced with `loop {}`),
1422 `hir` (the HIR), `hir,identified`,
1423 `hir,typed` (HIR with types for each node),
1424 `hir-tree` (dump the raw HIR),
1425 `mir` (the MIR), or `mir-cfg` (graphviz formatted MIR)"),
1426 run_dsymutil: Option<bool> = (None, parse_opt_bool, [TRACKED],
1427 "run `dsymutil` and delete intermediate object files"),
1428 ui_testing: bool = (false, parse_bool, [UNTRACKED],
1429 "format compiler diagnostics in a way that's better suitable for UI testing"),
1430 embed_bitcode: bool = (false, parse_bool, [TRACKED],
1431 "embed LLVM bitcode in object files"),
1432 strip_debuginfo_if_disabled: Option<bool> = (None, parse_opt_bool, [TRACKED],
1433 "tell the linker to strip debuginfo when building without debuginfo enabled."),
1434 share_generics: Option<bool> = (None, parse_opt_bool, [TRACKED],
1435 "make the current crate share its generic instantiations"),
1436 chalk: bool = (false, parse_bool, [TRACKED],
1437 "enable the experimental Chalk-based trait solving engine"),
1438 no_parallel_llvm: bool = (false, parse_bool, [UNTRACKED],
1439 "don't run LLVM in parallel (while keeping codegen-units and ThinLTO)"),
1440 no_leak_check: bool = (false, parse_bool, [UNTRACKED],
1441 "disables the 'leak check' for subtyping; unsound, but useful for tests"),
1442 no_interleave_lints: bool = (false, parse_bool, [UNTRACKED],
1443 "don't interleave execution of lints; allows benchmarking individual lints"),
1444 crate_attr: Vec<String> = (Vec::new(), parse_string_push, [TRACKED],
1445 "inject the given attribute in the crate"),
1446 self_profile: SwitchWithOptPath = (SwitchWithOptPath::Disabled,
1447 parse_switch_with_opt_path, [UNTRACKED],
1448 "run the self profiler and output the raw event data"),
1449 self_profile_events: Option<Vec<String>> = (None, parse_opt_comma_list, [UNTRACKED],
1450 "specifies which kinds of events get recorded by the self profiler"),
1451 emit_stack_sizes: bool = (false, parse_bool, [UNTRACKED],
1452 "emits a section containing stack size metadata"),
1453 plt: Option<bool> = (None, parse_opt_bool, [TRACKED],
1454 "whether to use the PLT when calling into shared libraries;
1455 only has effect for PIC code on systems with ELF binaries
1456 (default: PLT is disabled if full relro is enabled)"),
1457 merge_functions: Option<MergeFunctions> = (None, parse_merge_functions, [TRACKED],
1458 "control the operation of the MergeFunctions LLVM pass, taking
1459 the same values as the target option of the same name"),
1460 allow_features: Option<Vec<String>> = (None, parse_opt_comma_list, [TRACKED],
1461 "only allow the listed language features to be enabled in code (space separated)"),
1462 emit_artifact_notifications: bool = (false, parse_bool, [UNTRACKED],
1463 "emit notifications after each artifact has been output (only in the JSON format)"),
1464 symbol_mangling_version: SymbolManglingVersion = (SymbolManglingVersion::Legacy,
1465 parse_symbol_mangling_version, [TRACKED],
1466 "which mangling version to use for symbol names"),
1467 binary_dep_depinfo: bool = (false, parse_bool, [TRACKED],
1468 "include artifacts (sysroot, crate dependencies) used during compilation in dep-info"),
1471 pub fn default_lib_output() -> CrateType {
1475 pub fn default_configuration(sess: &Session) -> ast::CrateConfig {
1476 let end = &sess.target.target.target_endian;
1477 let arch = &sess.target.target.arch;
1478 let wordsz = &sess.target.target.target_pointer_width;
1479 let os = &sess.target.target.target_os;
1480 let env = &sess.target.target.target_env;
1481 let vendor = &sess.target.target.target_vendor;
1482 let min_atomic_width = sess.target.target.min_atomic_width();
1483 let max_atomic_width = sess.target.target.max_atomic_width();
1484 let atomic_cas = sess.target.target.options.atomic_cas;
1486 let mut ret = FxHashSet::default();
1487 ret.reserve(6); // the minimum number of insertions
1489 ret.insert((Symbol::intern("target_os"), Some(Symbol::intern(os))));
1490 if let Some(ref fam) = sess.target.target.options.target_family {
1491 ret.insert((Symbol::intern("target_family"), Some(Symbol::intern(fam))));
1492 if fam == "windows" || fam == "unix" {
1493 ret.insert((Symbol::intern(fam), None));
1496 ret.insert((Symbol::intern("target_arch"), Some(Symbol::intern(arch))));
1497 ret.insert((Symbol::intern("target_endian"), Some(Symbol::intern(end))));
1499 Symbol::intern("target_pointer_width"),
1500 Some(Symbol::intern(wordsz)),
1502 ret.insert((Symbol::intern("target_env"), Some(Symbol::intern(env))));
1504 Symbol::intern("target_vendor"),
1505 Some(Symbol::intern(vendor)),
1507 if sess.target.target.options.has_elf_tls {
1508 ret.insert((sym::target_thread_local, None));
1510 for &i in &[8, 16, 32, 64, 128] {
1511 if i >= min_atomic_width && i <= max_atomic_width {
1512 let s = i.to_string();
1514 sym::target_has_atomic,
1515 Some(Symbol::intern(&s)),
1519 sym::target_has_atomic,
1520 Some(Symbol::intern("ptr")),
1526 ret.insert((sym::target_has_atomic, Some(Symbol::intern("cas"))));
1528 if sess.opts.debug_assertions {
1529 ret.insert((Symbol::intern("debug_assertions"), None));
1531 if sess.opts.crate_types.contains(&CrateType::ProcMacro) {
1532 ret.insert((sym::proc_macro, None));
1537 /// Converts the crate cfg! configuration from String to Symbol.
1538 /// `rustc_interface::interface::Config` accepts this in the compiler configuration,
1539 /// but the symbol interner is not yet set up then, so we must convert it later.
1540 pub fn to_crate_config(cfg: FxHashSet<(String, Option<String>)>) -> ast::CrateConfig {
1542 .map(|(a, b)| (Symbol::intern(&a), b.map(|b| Symbol::intern(&b))))
1546 pub fn build_configuration(sess: &Session, mut user_cfg: ast::CrateConfig) -> ast::CrateConfig {
1547 // Combine the configuration requested by the session (command line) with
1548 // some default and generated configuration items
1549 let default_cfg = default_configuration(sess);
1550 // If the user wants a test runner, then add the test cfg
1552 user_cfg.insert((sym::test, None));
1554 user_cfg.extend(default_cfg.iter().cloned());
1558 pub fn build_target_config(opts: &Options, sp: &Handler) -> Config {
1559 let target = Target::search(&opts.target_triple).unwrap_or_else(|e| {
1560 sp.struct_fatal(&format!("Error loading target specification: {}", e))
1561 .help("Use `--print target-list` for a list of built-in targets")
1566 let (isize_ty, usize_ty) = match &target.target_pointer_width[..] {
1567 "16" => (ast::IntTy::I16, ast::UintTy::U16),
1568 "32" => (ast::IntTy::I32, ast::UintTy::U32),
1569 "64" => (ast::IntTy::I64, ast::UintTy::U64),
1570 w => sp.fatal(&format!(
1571 "target specification was invalid: \
1572 unrecognized target-pointer-width {}",
1584 #[derive(Copy, Clone, PartialEq, Eq, Debug)]
1585 pub enum OptionStability {
1590 pub struct RustcOptGroup {
1591 pub apply: Box<dyn Fn(&mut getopts::Options) -> &mut getopts::Options>,
1592 pub name: &'static str,
1593 pub stability: OptionStability,
1596 impl RustcOptGroup {
1597 pub fn is_stable(&self) -> bool {
1598 self.stability == OptionStability::Stable
1601 pub fn stable<F>(name: &'static str, f: F) -> RustcOptGroup
1603 F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
1608 stability: OptionStability::Stable,
1612 pub fn unstable<F>(name: &'static str, f: F) -> RustcOptGroup
1614 F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
1619 stability: OptionStability::Unstable,
1624 // The `opt` local module holds wrappers around the `getopts` API that
1625 // adds extra rustc-specific metadata to each option; such metadata
1626 // is exposed by . The public
1627 // functions below ending with `_u` are the functions that return
1628 // *unstable* options, i.e., options that are only enabled when the
1629 // user also passes the `-Z unstable-options` debugging flag.
1631 // The `fn opt_u` etc below are written so that we can use them
1632 // in the future; do not warn about them not being used right now.
1633 #![allow(dead_code)]
1636 use super::RustcOptGroup;
1638 pub type R = RustcOptGroup;
1639 pub type S = &'static str;
1641 fn stable<F>(name: S, f: F) -> R
1643 F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
1645 RustcOptGroup::stable(name, f)
1648 fn unstable<F>(name: S, f: F) -> R
1650 F: Fn(&mut getopts::Options) -> &mut getopts::Options + 'static,
1652 RustcOptGroup::unstable(name, f)
1655 fn longer(a: S, b: S) -> S {
1656 if a.len() > b.len() {
1663 pub fn opt_s(a: S, b: S, c: S, d: S) -> R {
1664 stable(longer(a, b), move |opts| opts.optopt(a, b, c, d))
1666 pub fn multi_s(a: S, b: S, c: S, d: S) -> R {
1667 stable(longer(a, b), move |opts| opts.optmulti(a, b, c, d))
1669 pub fn flag_s(a: S, b: S, c: S) -> R {
1670 stable(longer(a, b), move |opts| opts.optflag(a, b, c))
1672 pub fn flagopt_s(a: S, b: S, c: S, d: S) -> R {
1673 stable(longer(a, b), move |opts| opts.optflagopt(a, b, c, d))
1675 pub fn flagmulti_s(a: S, b: S, c: S) -> R {
1676 stable(longer(a, b), move |opts| opts.optflagmulti(a, b, c))
1679 pub fn opt(a: S, b: S, c: S, d: S) -> R {
1680 unstable(longer(a, b), move |opts| opts.optopt(a, b, c, d))
1682 pub fn multi(a: S, b: S, c: S, d: S) -> R {
1683 unstable(longer(a, b), move |opts| opts.optmulti(a, b, c, d))
1685 pub fn flag(a: S, b: S, c: S) -> R {
1686 unstable(longer(a, b), move |opts| opts.optflag(a, b, c))
1688 pub fn flagopt(a: S, b: S, c: S, d: S) -> R {
1689 unstable(longer(a, b), move |opts| opts.optflagopt(a, b, c, d))
1691 pub fn flagmulti(a: S, b: S, c: S) -> R {
1692 unstable(longer(a, b), move |opts| opts.optflagmulti(a, b, c))
1696 /// Returns the "short" subset of the rustc command line options,
1697 /// including metadata for each option, such as whether the option is
1698 /// part of the stable long-term interface for rustc.
1699 pub fn rustc_short_optgroups() -> Vec<RustcOptGroup> {
1701 opt::flag_s("h", "help", "Display this message"),
1702 opt::multi_s("", "cfg", "Configure the compilation environment", "SPEC"),
1706 "Add a directory to the library search path. The
1707 optional KIND can be one of dependency, crate, native,
1708 framework, or all (the default).",
1714 "Link the generated crate(s) to the specified native
1715 library NAME. The optional KIND can be one of
1716 static, framework, or dylib (the default).",
1722 "Comma separated list of types of crates
1723 for the compiler to emit",
1724 "[bin|lib|rlib|dylib|cdylib|staticlib|proc-macro]",
1729 "Specify the name of the crate being built",
1735 "Specify which edition of the compiler to use when compiling code.",
1741 "Comma separated list of types of output for \
1742 the compiler to emit",
1743 "[asm|llvm-bc|llvm-ir|obj|metadata|link|dep-info|mir]",
1748 "Compiler information to print on stdout",
1749 "[crate-name|file-names|sysroot|cfg|target-list|\
1750 target-cpus|target-features|relocation-models|\
1751 code-models|tls-models|target-spec-json|native-static-libs]",
1753 opt::flagmulti_s("g", "", "Equivalent to -C debuginfo=2"),
1754 opt::flagmulti_s("O", "", "Equivalent to -C opt-level=2"),
1755 opt::opt_s("o", "", "Write output to <filename>", "FILENAME"),
1759 "Write output to compiler-chosen filename \
1766 "Provide a detailed explanation of an error \
1770 opt::flag_s("", "test", "Build a test harness"),
1774 "Target triple for which the code is compiled",
1777 opt::multi_s("W", "warn", "Set lint warnings", "OPT"),
1778 opt::multi_s("A", "allow", "Set lint allowed", "OPT"),
1779 opt::multi_s("D", "deny", "Set lint denied", "OPT"),
1780 opt::multi_s("F", "forbid", "Set lint forbidden", "OPT"),
1784 "Set the most restrictive lint level. \
1785 More restrictive lints are capped at this \
1789 opt::multi_s("C", "codegen", "Set a codegen option", "OPT[=VALUE]"),
1790 opt::flag_s("V", "version", "Print version info and exit"),
1791 opt::flag_s("v", "verbose", "Use verbose output"),
1795 /// Returns all rustc command line options, including metadata for
1796 /// each option, such as whether the option is part of the stable
1797 /// long-term interface for rustc.
1798 pub fn rustc_optgroups() -> Vec<RustcOptGroup> {
1799 let mut opts = rustc_short_optgroups();
1804 "Specify where an external rust library is located",
1810 "Specify where an extern rust library is located, marking it as a private dependency",
1813 opt::opt_s("", "sysroot", "Override the system root", "PATH"),
1814 opt::multi("Z", "", "Set internal debugging options", "FLAG"),
1818 "How errors and other messages are produced",
1824 "Choose `rendered` field of json diagnostics render scheme",
1830 "Configure coloring of output:
1831 auto = colorize, if output goes to a tty (default);
1832 always = always colorize output;
1833 never = never colorize output",
1834 "auto|always|never",
1839 "Pretty-print the input instead of compiling;
1840 valid types are: `normal` (un-annotated source),
1841 `expanded` (crates expanded), or
1842 `expanded,identified` (fully parenthesized, AST nodes with IDs).",
1847 "remap-path-prefix",
1848 "Remap source names in all output (compiler messages and output files)",
1855 // Convert strings provided as --cfg [cfgspec] into a crate_cfg
1856 pub fn parse_cfgspecs(cfgspecs: Vec<String>) -> FxHashSet<(String, Option<String>)> {
1857 syntax::with_default_globals(move || {
1858 let cfg = cfgspecs.into_iter().map(|s| {
1859 let sess = parse::ParseSess::new(FilePathMapping::empty());
1860 let filename = FileName::cfg_spec_source_code(&s);
1861 let mut parser = parse::new_parser_from_source_str(&sess, filename, s.to_string());
1863 macro_rules! error {($reason: expr) => {
1864 early_error(ErrorOutputType::default(),
1865 &format!(concat!("invalid `--cfg` argument: `{}` (", $reason, ")"), s));
1868 match &mut parser.parse_meta_item() {
1869 Ok(meta_item) if parser.token == token::Eof => {
1870 if meta_item.path.segments.len() != 1 {
1871 error!("argument key must be an identifier");
1873 match &meta_item.node {
1874 MetaItemKind::List(..) => {
1875 error!(r#"expected `key` or `key="value"`"#);
1877 MetaItemKind::NameValue(lit) if !lit.node.is_str() => {
1878 error!("argument value must be a string");
1880 MetaItemKind::NameValue(..) | MetaItemKind::Word => {
1881 let ident = meta_item.ident().expect("multi-segment cfg key");
1882 return (ident.name, meta_item.value_str());
1887 Err(err) => err.cancel(),
1890 error!(r#"expected `key` or `key="value"`"#);
1891 }).collect::<ast::CrateConfig>();
1892 cfg.into_iter().map(|(a, b)| {
1893 (a.to_string(), b.map(|b| b.to_string()))
1898 pub fn get_cmd_lint_options(matches: &getopts::Matches,
1899 error_format: ErrorOutputType)
1900 -> (Vec<(String, lint::Level)>, bool, Option<lint::Level>) {
1901 let mut lint_opts = vec![];
1902 let mut describe_lints = false;
1904 for &level in &[lint::Allow, lint::Warn, lint::Deny, lint::Forbid] {
1905 for lint_name in matches.opt_strs(level.as_str()) {
1906 if lint_name == "help" {
1907 describe_lints = true;
1909 lint_opts.push((lint_name.replace("-", "_"), level));
1914 let lint_cap = matches.opt_str("cap-lints").map(|cap| {
1915 lint::Level::from_str(&cap)
1916 .unwrap_or_else(|| early_error(error_format, &format!("unknown lint level: `{}`", cap)))
1918 (lint_opts, describe_lints, lint_cap)
1921 pub fn build_session_options_and_crate_config(
1922 matches: &getopts::Matches,
1923 ) -> (Options, FxHashSet<(String, Option<String>)>) {
1924 let color = match matches.opt_str("color").as_ref().map(|s| &s[..]) {
1925 Some("auto") => ColorConfig::Auto,
1926 Some("always") => ColorConfig::Always,
1927 Some("never") => ColorConfig::Never,
1929 None => ColorConfig::Auto,
1931 Some(arg) => early_error(
1932 ErrorOutputType::default(),
1934 "argument for --color must be auto, \
1935 always or never (instead was `{}`)",
1941 let edition = match matches.opt_str("edition") {
1942 Some(arg) => Edition::from_str(&arg).unwrap_or_else(|_|
1944 ErrorOutputType::default(),
1946 "argument for --edition must be one of: \
1947 {}. (instead was `{}`)",
1953 None => DEFAULT_EDITION,
1956 if !edition.is_stable() && !nightly_options::is_nightly_build() {
1958 ErrorOutputType::default(),
1960 "Edition {} is unstable and only \
1961 available for nightly builds of rustc.",
1967 let json_rendered = matches.opt_str("json-rendered").and_then(|s| match s.as_str() {
1969 "termcolor" => Some(HumanReadableErrorType::Default(ColorConfig::Always)),
1971 ErrorOutputType::default(),
1973 "argument for --json-rendered must be `plain` or `termcolor` (instead was `{}`)",
1977 }).unwrap_or(HumanReadableErrorType::Default(ColorConfig::Never));
1979 // We need the opts_present check because the driver will send us Matches
1980 // with only stable options if no unstable options are used. Since error-format
1981 // is unstable, it will not be present. We have to use opts_present not
1982 // opt_present because the latter will panic.
1983 let error_format = if matches.opts_present(&["error-format".to_owned()]) {
1984 match matches.opt_str("error-format").as_ref().map(|s| &s[..]) {
1986 Some("human") => ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color)),
1987 Some("human-annotate-rs") => {
1988 ErrorOutputType::HumanReadable(HumanReadableErrorType::AnnotateSnippet(color))
1990 Some("json") => ErrorOutputType::Json { pretty: false, json_rendered },
1991 Some("pretty-json") => ErrorOutputType::Json { pretty: true, json_rendered },
1992 Some("short") => ErrorOutputType::HumanReadable(HumanReadableErrorType::Short(color)),
1994 Some(arg) => early_error(
1995 ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color)),
1997 "argument for --error-format must be `human`, `json` or \
1998 `short` (instead was `{}`)",
2004 ErrorOutputType::HumanReadable(HumanReadableErrorType::Default(color))
2007 let unparsed_crate_types = matches.opt_strs("crate-type");
2008 let crate_types = parse_crate_types_from_list(unparsed_crate_types)
2009 .unwrap_or_else(|e| early_error(error_format, &e[..]));
2012 let (lint_opts, describe_lints, lint_cap) = get_cmd_lint_options(matches, error_format);
2014 let mut debugging_opts = build_debugging_options(matches, error_format);
2016 if !debugging_opts.unstable_options {
2017 if matches.opt_str("json-rendered").is_some() {
2018 early_error(error_format, "`--json-rendered=x` is unstable");
2020 if let ErrorOutputType::Json { pretty: true, json_rendered } = error_format {
2022 ErrorOutputType::Json { pretty: false, json_rendered },
2023 "--error-format=pretty-json is unstable",
2026 if let ErrorOutputType::HumanReadable(HumanReadableErrorType::AnnotateSnippet(_)) =
2029 ErrorOutputType::Json { pretty: false, json_rendered },
2030 "--error-format=human-annotate-rs is unstable",
2035 let mut output_types = BTreeMap::new();
2036 if !debugging_opts.parse_only {
2037 for list in matches.opt_strs("emit") {
2038 for output_type in list.split(',') {
2039 let mut parts = output_type.splitn(2, '=');
2040 let shorthand = parts.next().unwrap();
2041 let output_type = OutputType::from_shorthand(shorthand).unwrap_or_else(||
2045 "unknown emission type: `{}` - expected one of: {}",
2047 OutputType::shorthands_display(),
2051 let path = parts.next().map(PathBuf::from);
2052 output_types.insert(output_type, path);
2056 if output_types.is_empty() {
2057 output_types.insert(OutputType::Exe, None);
2060 let mut cg = build_codegen_options(matches, error_format);
2061 let mut codegen_units = cg.codegen_units;
2062 let mut disable_thinlto = false;
2064 // Issue #30063: if user requests llvm-related output to one
2065 // particular path, disable codegen-units.
2066 let incompatible: Vec<_> = output_types
2068 .map(|ot_path| ot_path.0)
2069 .filter(|ot| !ot.is_compatible_with_codegen_units_and_single_output_file())
2070 .map(|ot| ot.shorthand())
2072 if !incompatible.is_empty() {
2073 match codegen_units {
2074 Some(n) if n > 1 => {
2075 if matches.opt_present("o") {
2076 for ot in &incompatible {
2080 "--emit={} with -o incompatible with \
2081 -C codegen-units=N for N > 1",
2086 early_warn(error_format, "resetting to default -C codegen-units=1");
2087 codegen_units = Some(1);
2088 disable_thinlto = true;
2092 codegen_units = Some(1);
2093 disable_thinlto = true;
2098 if debugging_opts.threads == Some(0) {
2101 "Value for threads must be a positive nonzero integer",
2105 if debugging_opts.threads.unwrap_or(1) > 1 && debugging_opts.fuel.is_some() {
2108 "Optimization fuel is incompatible with multiple threads",
2112 if codegen_units == Some(0) {
2115 "Value for codegen units must be a positive nonzero integer",
2119 let incremental = match (&debugging_opts.incremental, &cg.incremental) {
2120 (&Some(ref path1), &Some(ref path2)) => {
2125 "conflicting paths for `-Z incremental` and \
2126 `-C incremental` specified: {} versus {}",
2134 (&Some(ref path), &None) => Some(path),
2135 (&None, &Some(ref path)) => Some(path),
2136 (&None, &None) => None,
2137 }.map(|m| PathBuf::from(m));
2139 if debugging_opts.profile && incremental.is_some() {
2142 "can't instrument with gcov profiling when compiling incrementally",
2146 if cg.profile_generate.enabled() && cg.profile_use.is_some() {
2149 "options `-C profile-generate` and `-C profile-use` are exclusive",
2153 let mut prints = Vec::<PrintRequest>::new();
2154 if cg.target_cpu.as_ref().map_or(false, |s| s == "help") {
2155 prints.push(PrintRequest::TargetCPUs);
2156 cg.target_cpu = None;
2158 if cg.target_feature == "help" {
2159 prints.push(PrintRequest::TargetFeatures);
2160 cg.target_feature = String::new();
2162 if cg.relocation_model.as_ref().map_or(false, |s| s == "help") {
2163 prints.push(PrintRequest::RelocationModels);
2164 cg.relocation_model = None;
2166 if cg.code_model.as_ref().map_or(false, |s| s == "help") {
2167 prints.push(PrintRequest::CodeModels);
2168 cg.code_model = None;
2173 .map_or(false, |s| s == "help")
2175 prints.push(PrintRequest::TlsModels);
2176 debugging_opts.tls_model = None;
2181 let sysroot_opt = matches.opt_str("sysroot").map(|m| PathBuf::from(&m));
2182 let target_triple = if let Some(target) = matches.opt_str("target") {
2183 if target.ends_with(".json") {
2184 let path = Path::new(&target);
2185 TargetTriple::from_path(&path).unwrap_or_else(|_|
2186 early_error(error_format, &format!("target file {:?} does not exist", path)))
2188 TargetTriple::TargetTriple(target)
2191 TargetTriple::from_triple(host_triple())
2194 // The `-O` and `-C opt-level` flags specify the same setting, so we want to be able
2195 // to use them interchangeably. However, because they're technically different flags,
2196 // we need to work out manually which should take precedence if both are supplied (i.e.
2197 // the rightmost flag). We do this by finding the (rightmost) position of both flags and
2198 // comparing them. Note that if a flag is not found, its position will be `None`, which
2199 // always compared less than `Some(_)`.
2200 let max_o = matches.opt_positions("O").into_iter().max();
2201 let max_c = matches.opt_strs_pos("C").into_iter().flat_map(|(i, s)| {
2202 if let Some("opt-level") = s.splitn(2, '=').next() {
2211 match cg.opt_level.as_ref().map(String::as_ref) {
2212 None => OptLevel::No,
2213 Some("0") => OptLevel::No,
2214 Some("1") => OptLevel::Less,
2215 Some("2") => OptLevel::Default,
2216 Some("3") => OptLevel::Aggressive,
2217 Some("s") => OptLevel::Size,
2218 Some("z") => OptLevel::SizeMin,
2223 "optimization level needs to be \
2224 between 0-3, s or z (instead was `{}`)",
2232 // The `-g` and `-C debuginfo` flags specify the same setting, so we want to be able
2233 // to use them interchangeably. See the note above (regarding `-O` and `-C opt-level`)
2234 // for more details.
2235 let debug_assertions = cg.debug_assertions.unwrap_or(opt_level == OptLevel::No);
2236 let max_g = matches.opt_positions("g").into_iter().max();
2237 let max_c = matches.opt_strs_pos("C").into_iter().flat_map(|(i, s)| {
2238 if let Some("debuginfo") = s.splitn(2, '=').next() {
2244 let debuginfo = if max_g > max_c {
2247 match cg.debuginfo {
2248 None | Some(0) => DebugInfo::None,
2249 Some(1) => DebugInfo::Limited,
2250 Some(2) => DebugInfo::Full,
2255 "debug info level needs to be between \
2256 0-2 (instead was `{}`)",
2264 let mut search_paths = vec![];
2265 for s in &matches.opt_strs("L") {
2266 search_paths.push(SearchPath::from_cli_opt(&s[..], error_format));
2273 // Parse string of the form "[KIND=]lib[:new_name]",
2274 // where KIND is one of "dylib", "framework", "static".
2275 let mut parts = s.splitn(2, '=');
2276 let kind = parts.next().unwrap();
2277 let (name, kind) = match (parts.next(), kind) {
2278 (None, name) => (name, None),
2279 (Some(name), "dylib") => (name, Some(cstore::NativeUnknown)),
2280 (Some(name), "framework") => (name, Some(cstore::NativeFramework)),
2281 (Some(name), "static") => (name, Some(cstore::NativeStatic)),
2282 (Some(name), "static-nobundle") => (name, Some(cstore::NativeStaticNobundle)),
2287 "unknown library kind `{}`, expected \
2288 one of dylib, framework, or static",
2294 if kind == Some(cstore::NativeStaticNobundle) && !nightly_options::is_nightly_build() {
2298 "the library kind 'static-nobundle' is only \
2299 accepted on the nightly compiler"
2303 let mut name_parts = name.splitn(2, ':');
2304 let name = name_parts.next().unwrap();
2305 let new_name = name_parts.next();
2306 (name.to_owned(), new_name.map(|n| n.to_owned()), kind)
2310 let cfg = parse_cfgspecs(matches.opt_strs("cfg"));
2311 let test = matches.opt_present("test");
2313 let is_unstable_enabled = nightly_options::is_unstable_enabled(matches);
2315 prints.extend(matches.opt_strs("print").into_iter().map(|s| match &*s {
2316 "crate-name" => PrintRequest::CrateName,
2317 "file-names" => PrintRequest::FileNames,
2318 "sysroot" => PrintRequest::Sysroot,
2319 "cfg" => PrintRequest::Cfg,
2320 "target-list" => PrintRequest::TargetList,
2321 "target-cpus" => PrintRequest::TargetCPUs,
2322 "target-features" => PrintRequest::TargetFeatures,
2323 "relocation-models" => PrintRequest::RelocationModels,
2324 "code-models" => PrintRequest::CodeModels,
2325 "tls-models" => PrintRequest::TlsModels,
2326 "native-static-libs" => PrintRequest::NativeStaticLibs,
2327 "target-spec-json" => {
2328 if is_unstable_enabled {
2329 PrintRequest::TargetSpec
2333 "the `-Z unstable-options` flag must also be passed to \
2334 enable the target-spec-json print option",
2338 req => early_error(error_format, &format!("unknown print request `{}`", req)),
2341 let borrowck_mode = match debugging_opts.borrowck.as_ref().map(|s| &s[..]) {
2342 None | Some("migrate") => BorrowckMode::Migrate,
2343 Some("mir") => BorrowckMode::Mir,
2344 Some(m) => early_error(error_format, &format!("unknown borrowck mode `{}`", m)),
2347 if !cg.remark.is_empty() && debuginfo == DebugInfo::None {
2350 "-C remark requires \"-C debuginfo=n\" to show source locations",
2354 if matches.opt_present("extern-private") && !debugging_opts.unstable_options {
2356 ErrorOutputType::default(),
2357 "'--extern-private' is unstable and only \
2358 available for nightly builds of rustc."
2362 // We start out with a Vec<(Option<String>, bool)>>,
2363 // and later convert it into a BTreeSet<(Option<String>, bool)>
2364 // This allows to modify entries in-place to set their correct
2366 let mut externs: BTreeMap<String, ExternEntry> = BTreeMap::new();
2367 for (arg, private) in matches.opt_strs("extern").into_iter().map(|v| (v, false))
2368 .chain(matches.opt_strs("extern-private").into_iter().map(|v| (v, true))) {
2370 let mut parts = arg.splitn(2, '=');
2371 let name = parts.next().unwrap_or_else(||
2372 early_error(error_format, "--extern value must not be empty"));
2373 let location = parts.next().map(|s| s.to_string());
2374 if location.is_none() && !is_unstable_enabled {
2377 "the `-Z unstable-options` flag must also be passed to \
2378 enable `--extern crate_name` without `=path`",
2383 .entry(name.to_owned())
2387 entry.locations.insert(location.clone());
2389 // Crates start out being not private,
2390 // and go to being private if we see an '--extern-private'
2392 entry.is_private_dep |= private;
2395 let crate_name = matches.opt_str("crate-name");
2397 let remap_path_prefix = matches
2398 .opt_strs("remap-path-prefix")
2401 let mut parts = remap.rsplitn(2, '='); // reverse iterator
2402 let to = parts.next();
2403 let from = parts.next();
2405 (Some(from), Some(to)) => (PathBuf::from(from), PathBuf::from(to)),
2408 "--remap-path-prefix must contain '=' between FROM and TO",
2417 optimize: opt_level,
2422 output_types: OutputTypes(output_types),
2424 maybe_sysroot: sysroot_opt,
2433 externs: Externs(externs),
2437 unstable_features: UnstableFeatures::from_environment(),
2439 actually_rustdoc: false,
2440 cli_forced_codegen_units: codegen_units,
2441 cli_forced_thinlto_off: disable_thinlto,
2449 pub fn parse_crate_types_from_list(list_list: Vec<String>) -> Result<Vec<CrateType>, String> {
2450 let mut crate_types: Vec<CrateType> = Vec::new();
2451 for unparsed_crate_type in &list_list {
2452 for part in unparsed_crate_type.split(',') {
2453 let new_part = match part {
2454 "lib" => default_lib_output(),
2455 "rlib" => CrateType::Rlib,
2456 "staticlib" => CrateType::Staticlib,
2457 "dylib" => CrateType::Dylib,
2458 "cdylib" => CrateType::Cdylib,
2459 "bin" => CrateType::Executable,
2460 "proc-macro" => CrateType::ProcMacro,
2461 _ => return Err(format!("unknown crate type: `{}`", part))
2463 if !crate_types.contains(&new_part) {
2464 crate_types.push(new_part)
2472 pub mod nightly_options {
2474 use syntax::feature_gate::UnstableFeatures;
2475 use super::{ErrorOutputType, OptionStability, RustcOptGroup};
2476 use crate::session::early_error;
2478 pub fn is_unstable_enabled(matches: &getopts::Matches) -> bool {
2483 .any(|x| *x == "unstable-options")
2486 pub fn is_nightly_build() -> bool {
2487 UnstableFeatures::from_environment().is_nightly_build()
2490 pub fn check_nightly_options(matches: &getopts::Matches, flags: &[RustcOptGroup]) {
2491 let has_z_unstable_option = matches
2494 .any(|x| *x == "unstable-options");
2495 let really_allows_unstable_options =
2496 UnstableFeatures::from_environment().is_nightly_build();
2498 for opt in flags.iter() {
2499 if opt.stability == OptionStability::Stable {
2502 if !matches.opt_present(opt.name) {
2505 if opt.name != "Z" && !has_z_unstable_option {
2507 ErrorOutputType::default(),
2509 "the `-Z unstable-options` flag must also be passed to enable \
2515 if really_allows_unstable_options {
2518 match opt.stability {
2519 OptionStability::Unstable => {
2521 "the option `{}` is only accepted on the \
2525 early_error(ErrorOutputType::default(), &msg);
2527 OptionStability::Stable => {}
2533 impl fmt::Display for CrateType {
2534 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
2536 CrateType::Executable => "bin".fmt(f),
2537 CrateType::Dylib => "dylib".fmt(f),
2538 CrateType::Rlib => "rlib".fmt(f),
2539 CrateType::Staticlib => "staticlib".fmt(f),
2540 CrateType::Cdylib => "cdylib".fmt(f),
2541 CrateType::ProcMacro => "proc-macro".fmt(f),
2546 /// Command-line arguments passed to the compiler have to be incorporated with
2547 /// the dependency tracking system for incremental compilation. This module
2548 /// provides some utilities to make this more convenient.
2550 /// The values of all command-line arguments that are relevant for dependency
2551 /// tracking are hashed into a single value that determines whether the
2552 /// incremental compilation cache can be re-used or not. This hashing is done
2553 /// via the DepTrackingHash trait defined below, since the standard Hash
2554 /// implementation might not be suitable (e.g., arguments are stored in a Vec,
2555 /// the hash of which is order dependent, but we might not want the order of
2556 /// arguments to make a difference for the hash).
2558 /// However, since the value provided by Hash::hash often *is* suitable,
2559 /// especially for primitive types, there is the
2560 /// impl_dep_tracking_hash_via_hash!() macro that allows to simply reuse the
2561 /// Hash implementation for DepTrackingHash. It's important though that
2562 /// we have an opt-in scheme here, so one is hopefully forced to think about
2563 /// how the hash should be calculated when adding a new command-line argument.
2566 use crate::middle::cstore;
2567 use std::collections::BTreeMap;
2568 use std::hash::Hash;
2569 use std::path::PathBuf;
2570 use std::collections::hash_map::DefaultHasher;
2571 use super::{CrateType, DebugInfo, ErrorOutputType, OptLevel, OutputTypes,
2572 Passes, Sanitizer, LtoCli, LinkerPluginLto, SwitchWithOptPath,
2573 SymbolManglingVersion};
2574 use syntax::feature_gate::UnstableFeatures;
2575 use rustc_target::spec::{MergeFunctions, PanicStrategy, RelroLevel, TargetTriple};
2576 use syntax::edition::Edition;
2578 pub trait DepTrackingHash {
2579 fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType);
2582 macro_rules! impl_dep_tracking_hash_via_hash {
2584 impl DepTrackingHash for $t {
2585 fn hash(&self, hasher: &mut DefaultHasher, _: ErrorOutputType) {
2586 Hash::hash(self, hasher);
2592 macro_rules! impl_dep_tracking_hash_for_sortable_vec_of {
2594 impl DepTrackingHash for Vec<$t> {
2595 fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
2596 let mut elems: Vec<&$t> = self.iter().collect();
2598 Hash::hash(&elems.len(), hasher);
2599 for (index, elem) in elems.iter().enumerate() {
2600 Hash::hash(&index, hasher);
2601 DepTrackingHash::hash(*elem, hasher, error_format);
2608 impl_dep_tracking_hash_via_hash!(bool);
2609 impl_dep_tracking_hash_via_hash!(usize);
2610 impl_dep_tracking_hash_via_hash!(u64);
2611 impl_dep_tracking_hash_via_hash!(String);
2612 impl_dep_tracking_hash_via_hash!(PathBuf);
2613 impl_dep_tracking_hash_via_hash!(lint::Level);
2614 impl_dep_tracking_hash_via_hash!(Option<bool>);
2615 impl_dep_tracking_hash_via_hash!(Option<usize>);
2616 impl_dep_tracking_hash_via_hash!(Option<String>);
2617 impl_dep_tracking_hash_via_hash!(Option<(String, u64)>);
2618 impl_dep_tracking_hash_via_hash!(Option<Vec<String>>);
2619 impl_dep_tracking_hash_via_hash!(Option<MergeFunctions>);
2620 impl_dep_tracking_hash_via_hash!(Option<PanicStrategy>);
2621 impl_dep_tracking_hash_via_hash!(Option<RelroLevel>);
2622 impl_dep_tracking_hash_via_hash!(Option<lint::Level>);
2623 impl_dep_tracking_hash_via_hash!(Option<PathBuf>);
2624 impl_dep_tracking_hash_via_hash!(Option<cstore::NativeLibraryKind>);
2625 impl_dep_tracking_hash_via_hash!(CrateType);
2626 impl_dep_tracking_hash_via_hash!(MergeFunctions);
2627 impl_dep_tracking_hash_via_hash!(PanicStrategy);
2628 impl_dep_tracking_hash_via_hash!(RelroLevel);
2629 impl_dep_tracking_hash_via_hash!(Passes);
2630 impl_dep_tracking_hash_via_hash!(OptLevel);
2631 impl_dep_tracking_hash_via_hash!(LtoCli);
2632 impl_dep_tracking_hash_via_hash!(DebugInfo);
2633 impl_dep_tracking_hash_via_hash!(UnstableFeatures);
2634 impl_dep_tracking_hash_via_hash!(OutputTypes);
2635 impl_dep_tracking_hash_via_hash!(cstore::NativeLibraryKind);
2636 impl_dep_tracking_hash_via_hash!(Sanitizer);
2637 impl_dep_tracking_hash_via_hash!(Option<Sanitizer>);
2638 impl_dep_tracking_hash_via_hash!(TargetTriple);
2639 impl_dep_tracking_hash_via_hash!(Edition);
2640 impl_dep_tracking_hash_via_hash!(LinkerPluginLto);
2641 impl_dep_tracking_hash_via_hash!(SwitchWithOptPath);
2642 impl_dep_tracking_hash_via_hash!(SymbolManglingVersion);
2644 impl_dep_tracking_hash_for_sortable_vec_of!(String);
2645 impl_dep_tracking_hash_for_sortable_vec_of!(PathBuf);
2646 impl_dep_tracking_hash_for_sortable_vec_of!(CrateType);
2647 impl_dep_tracking_hash_for_sortable_vec_of!((String, lint::Level));
2648 impl_dep_tracking_hash_for_sortable_vec_of!((
2651 Option<cstore::NativeLibraryKind>
2653 impl_dep_tracking_hash_for_sortable_vec_of!((String, u64));
2655 impl<T1, T2> DepTrackingHash for (T1, T2)
2657 T1: DepTrackingHash,
2658 T2: DepTrackingHash,
2660 fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
2661 Hash::hash(&0, hasher);
2662 DepTrackingHash::hash(&self.0, hasher, error_format);
2663 Hash::hash(&1, hasher);
2664 DepTrackingHash::hash(&self.1, hasher, error_format);
2668 impl<T1, T2, T3> DepTrackingHash for (T1, T2, T3)
2670 T1: DepTrackingHash,
2671 T2: DepTrackingHash,
2672 T3: DepTrackingHash,
2674 fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
2675 Hash::hash(&0, hasher);
2676 DepTrackingHash::hash(&self.0, hasher, error_format);
2677 Hash::hash(&1, hasher);
2678 DepTrackingHash::hash(&self.1, hasher, error_format);
2679 Hash::hash(&2, hasher);
2680 DepTrackingHash::hash(&self.2, hasher, error_format);
2684 // This is a stable hash because BTreeMap is a sorted container
2686 sub_hashes: BTreeMap<&'static str, &dyn DepTrackingHash>,
2687 hasher: &mut DefaultHasher,
2688 error_format: ErrorOutputType,
2690 for (key, sub_hash) in sub_hashes {
2691 // Using Hash::hash() instead of DepTrackingHash::hash() is fine for
2692 // the keys, as they are just plain strings
2693 Hash::hash(&key.len(), hasher);
2694 Hash::hash(key, hasher);
2695 sub_hash.hash(hasher, error_format);