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config.rs
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config.rs
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//! Contains infrastructure for configuring the compiler, including parsing
//! command-line options.
use crate::lint;
use crate::middle::cstore;
use crate::session::{early_error, early_warn, Session};
use crate::session::search_paths::SearchPath;
use rustc_data_structures::fx::FxHashSet;
use rustc_data_structures::sync::Lrc;
use rustc_target::spec::{LinkerFlavor, MergeFunctions, PanicStrategy, RelroLevel};
use rustc_target::spec::{Target, TargetTriple};
use syntax;
use syntax::ast::{self, IntTy, UintTy, MetaItemKind};
use syntax::source_map::{FileName, FilePathMapping};
use syntax::edition::{Edition, EDITION_NAME_LIST, DEFAULT_EDITION};
use syntax::parse::new_parser_from_source_str;
use syntax::parse::token;
use syntax::sess::ParseSess;
use syntax::symbol::{sym, Symbol};
use syntax::feature_gate::UnstableFeatures;
use syntax::source_map::SourceMap;
use errors::emitter::HumanReadableErrorType;
use errors::{ColorConfig, FatalError, Handler, SourceMapperDyn};
use getopts;
use std::collections::{BTreeMap, BTreeSet};
use std::collections::btree_map::{
Iter as BTreeMapIter, Keys as BTreeMapKeysIter, Values as BTreeMapValuesIter,
};
use std::fmt;
use std::str::{self, FromStr};
use std::hash::Hasher;
use std::collections::hash_map::DefaultHasher;
use std::iter::FromIterator;
use std::path::{Path, PathBuf};
pub struct Config {
pub target: Target,
pub isize_ty: IntTy,
pub usize_ty: UintTy,
}
#[derive(Clone, Hash, Debug)]
pub enum Sanitizer {
Address,
Leak,
Memory,
Thread,
}
#[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, Copy, PartialEq, Hash, Debug)]
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, Hash)]
pub struct Externs(BTreeMap<String, ExternEntry>);
#[derive(Clone, Hash, Eq, PartialEq, Ord, PartialOrd, Debug, Default)]
pub struct ExternEntry {
pub locations: BTreeSet<Option<String>>,
pub is_private_dep: bool
}
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()
}
}
macro_rules! hash_option {
($opt_name:ident, $opt_expr:expr, $sub_hashes:expr, [UNTRACKED]) => ({});
($opt_name:ident, $opt_expr:expr, $sub_hashes:expr, [TRACKED]) => ({
if $sub_hashes.insert(stringify!($opt_name),
$opt_expr as &dyn dep_tracking::DepTrackingHash).is_some() {
bug!("duplicate key in CLI DepTrackingHash: {}", stringify!($opt_name))
}
});
}
macro_rules! top_level_options {
(pub struct Options { $(
$opt:ident : $t:ty [$dep_tracking_marker:ident $($warn_val:expr, $warn_text:expr)*],
)* } ) => (
#[derive(Clone)]
pub struct Options {
$(pub $opt: $t),*
}
impl Options {
pub fn dep_tracking_hash(&self) -> u64 {
let mut sub_hashes = BTreeMap::new();
$({
hash_option!($opt,
&self.$opt,
&mut sub_hashes,
[$dep_tracking_marker $($warn_val,
$warn_text,
self.error_format)*]);
})*
let mut hasher = DefaultHasher::new();
dep_tracking::stable_hash(sub_hashes,
&mut hasher,
self.error_format);
hasher.finish()
}
}
);
}
// The top-level command-line options struct.
//
// For each option, one has to specify how it behaves with regard to the
// dependency tracking system of incremental compilation. This is done via the
// square-bracketed directive after the field type. The options are:
//
// [TRACKED]
// A change in the given field will cause the compiler to completely clear the
// incremental compilation cache before proceeding.
//
// [UNTRACKED]
// Incremental compilation is not influenced by this option.
//
// If you add a new option to this struct or one of the sub-structs like
// `CodegenOptions`, think about how it influences incremental compilation. If in
// doubt, specify [TRACKED], which is always "correct" but might lead to
// unnecessary re-compilation.
top_level_options!(
pub struct Options {
// The crate config requested for the session, which may be combined
// with additional crate configurations during the compile process.
crate_types: Vec<CrateType> [TRACKED],
optimize: OptLevel [TRACKED],
// Include the `debug_assertions` flag in dependency tracking, since it
// can influence whether overflow checks are done or not.
debug_assertions: bool [TRACKED],
debuginfo: DebugInfo [TRACKED],
lint_opts: Vec<(String, lint::Level)> [TRACKED],
lint_cap: Option<lint::Level> [TRACKED],
describe_lints: bool [UNTRACKED],
output_types: OutputTypes [TRACKED],
search_paths: Vec<SearchPath> [UNTRACKED],
libs: Vec<(String, Option<String>, Option<cstore::NativeLibraryKind>)> [TRACKED],
maybe_sysroot: Option<PathBuf> [UNTRACKED],
target_triple: TargetTriple [TRACKED],
test: bool [TRACKED],
error_format: ErrorOutputType [UNTRACKED],
// If `Some`, enable incremental compilation, using the given
// directory to store intermediate results.
incremental: Option<PathBuf> [UNTRACKED],
debugging_opts: DebuggingOptions [TRACKED],
prints: Vec<PrintRequest> [UNTRACKED],
// Determines which borrow checker(s) to run. This is the parsed, sanitized
// version of `debugging_opts.borrowck`, which is just a plain string.
borrowck_mode: BorrowckMode [UNTRACKED],
cg: CodegenOptions [TRACKED],
externs: Externs [UNTRACKED],
crate_name: Option<String> [TRACKED],
// An optional name to use as the crate for std during std injection,
// written `extern crate name as std`. Defaults to `std`. Used by
// out-of-tree drivers.
alt_std_name: Option<String> [TRACKED],
// Indicates how the compiler should treat unstable features.
unstable_features: UnstableFeatures [TRACKED],
// Indicates whether this run of the compiler is actually rustdoc. This
// is currently just a hack and will be removed eventually, so please
// try to not rely on this too much.
actually_rustdoc: bool [TRACKED],
// Specifications of codegen units / ThinLTO which are forced as a
// result of parsing command line options. These are not necessarily
// what rustc was invoked with, but massaged a bit to agree with
// commands like `--emit llvm-ir` which they're often incompatible with
// if we otherwise use the defaults of rustc.
cli_forced_codegen_units: Option<usize> [UNTRACKED],
cli_forced_thinlto_off: bool [UNTRACKED],
// Remap source path prefixes in all output (messages, object files, debug, etc.).
remap_path_prefix: Vec<(PathBuf, PathBuf)> [UNTRACKED],
edition: Edition [TRACKED],
// `true` if we're emitting JSON blobs about each artifact produced
// by the compiler.
json_artifact_notifications: bool [TRACKED],
}
);
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum PrintRequest {
FileNames,
Sysroot,
CrateName,
Cfg,
TargetList,
TargetCPUs,
TargetFeatures,
RelocationModels,
CodeModels,
TlsModels,
TargetSpec,
NativeStaticLibs,
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
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,
pub out_filestem: String,
pub single_output_file: Option<PathBuf>,
pub extra: String,
pub outputs: OutputTypes,
}
impl_stable_hash_via_hash!(OutputFilenames);
pub const RUST_CGU_EXT: &str = "rcgu";
impl OutputFilenames {
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 base = self.out_directory.join(&self.filestem());
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);
}
let path = base.with_extension(&extension[..]);
path
}
pub fn with_extension(&self, extension: &str) -> PathBuf {
self.out_directory
.join(&self.filestem())
.with_extension(extension)
}
pub fn filestem(&self) -> String {
format!("{}{}", self.out_filestem, self.extra)
}
}
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,
}
}
}
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,
}
}
}
}
}
// 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, HashStable)]
pub enum CrateType {
Executable,
Dylib,
Rlib,
Staticlib,
Cdylib,
ProcMacro,
}
#[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,
}
}
}
/// Defines all `CodegenOptions`/`DebuggingOptions` fields and parsers all at once. The goal of this
/// macro is to define an interface that can be programmatically used by the option parser
/// to initialize the struct without hardcoding field names all over the place.
///
/// The goal is to invoke this macro once with the correct fields, and then this macro generates all
/// necessary code. The main gotcha of this macro is the `cgsetters` module which is a bunch of
/// generated code to parse an option into its respective field in the struct. There are a few
/// hand-written parsers for parsing specific types of values in this module.
macro_rules! options {
($struct_name:ident, $setter_name:ident, $defaultfn:ident,
$buildfn:ident, $prefix:expr, $outputname:expr,
$stat:ident, $mod_desc:ident, $mod_set:ident,
$($opt:ident : $t:ty = (
$init:expr,
$parse:ident,
[$dep_tracking_marker:ident $(($dep_warn_val:expr, $dep_warn_text:expr))*],
$desc:expr)
),* ,) =>
(
#[derive(Clone)]
pub struct $struct_name { $(pub $opt: $t),* }
pub fn $defaultfn() -> $struct_name {
$struct_name { $($opt: $init),* }
}
pub fn $buildfn(matches: &getopts::Matches, error_format: ErrorOutputType) -> $struct_name
{
let mut op = $defaultfn();
for option in matches.opt_strs($prefix) {
let mut iter = option.splitn(2, '=');
let key = iter.next().unwrap();
let value = iter.next();
let option_to_lookup = key.replace("-", "_");
let mut found = false;
for &(candidate, setter, opt_type_desc, _) in $stat {
if option_to_lookup != candidate { continue }
if !setter(&mut op, value) {
match (value, opt_type_desc) {
(Some(..), None) => {
early_error(error_format, &format!("{} option `{}` takes no \
value", $outputname, key))
}
(None, Some(type_desc)) => {
early_error(error_format, &format!("{0} option `{1}` requires \
{2} ({3} {1}=<value>)",
$outputname, key,
type_desc, $prefix))
}
(Some(value), Some(type_desc)) => {
early_error(error_format, &format!("incorrect value `{}` for {} \
option `{}` - {} was expected",
value, $outputname,
key, type_desc))
}
(None, None) => bug!()
}
}
found = true;
break;
}
if !found {
early_error(error_format, &format!("unknown {} option: `{}`",
$outputname, key));
}
}
return op;
}
impl dep_tracking::DepTrackingHash for $struct_name {
fn hash(&self, hasher: &mut DefaultHasher, error_format: ErrorOutputType) {
let mut sub_hashes = BTreeMap::new();
$({
hash_option!($opt,
&self.$opt,
&mut sub_hashes,
[$dep_tracking_marker $($dep_warn_val,
$dep_warn_text,
error_format)*]);
})*
dep_tracking::stable_hash(sub_hashes, hasher, error_format);
}
}
pub type $setter_name = fn(&mut $struct_name, v: Option<&str>) -> bool;
pub const $stat: &[(&str, $setter_name, Option<&str>, &str)] =
&[ $( (stringify!($opt), $mod_set::$opt, $mod_desc::$parse, $desc) ),* ];
#[allow(non_upper_case_globals, dead_code)]
mod $mod_desc {
pub const parse_bool: Option<&str> = None;
pub const parse_opt_bool: Option<&str> =
Some("one of: `y`, `yes`, `on`, `n`, `no`, or `off`");
pub const parse_string: Option<&str> = Some("a string");
pub const parse_string_push: Option<&str> = Some("a string");
pub const parse_pathbuf_push: Option<&str> = Some("a path");
pub const parse_opt_string: Option<&str> = Some("a string");
pub const parse_opt_pathbuf: Option<&str> = Some("a path");
pub const parse_list: Option<&str> = Some("a space-separated list of strings");
pub const parse_opt_list: Option<&str> = Some("a space-separated list of strings");
pub const parse_opt_comma_list: Option<&str> = Some("a comma-separated list of strings");
pub const parse_threads: Option<&str> = Some("a number");
pub const parse_uint: Option<&str> = Some("a number");
pub const parse_passes: Option<&str> =
Some("a space-separated list of passes, or `all`");
pub const parse_opt_uint: Option<&str> =
Some("a number");
pub const parse_panic_strategy: Option<&str> =
Some("either `unwind` or `abort`");
pub const parse_relro_level: Option<&str> =
Some("one of: `full`, `partial`, or `off`");
pub const parse_sanitizer: Option<&str> =
Some("one of: `address`, `leak`, `memory` or `thread`");
pub const parse_linker_flavor: Option<&str> =
Some(::rustc_target::spec::LinkerFlavor::one_of());
pub const parse_optimization_fuel: Option<&str> =
Some("crate=integer");
pub const parse_unpretty: Option<&str> =
Some("`string` or `string=string`");
pub const parse_treat_err_as_bug: Option<&str> =
Some("either no value or a number bigger than 0");
pub const parse_lto: Option<&str> =
Some("either a boolean (`yes`, `no`, `on`, `off`, etc), `thin`, \
`fat`, or omitted");
pub const parse_linker_plugin_lto: Option<&str> =
Some("either a boolean (`yes`, `no`, `on`, `off`, etc), \
or the path to the linker plugin");
pub const parse_switch_with_opt_path: Option<&str> =
Some("an optional path to the profiling data output directory");
pub const parse_merge_functions: Option<&str> =
Some("one of: `disabled`, `trampolines`, or `aliases`");
pub const parse_symbol_mangling_version: Option<&str> =
Some("either `legacy` or `v0` (RFC 2603)");
}
#[allow(dead_code)]
mod $mod_set {
use super::{$struct_name, Passes, Sanitizer, LtoCli, LinkerPluginLto, SwitchWithOptPath,
SymbolManglingVersion};
use rustc_target::spec::{LinkerFlavor, MergeFunctions, PanicStrategy, RelroLevel};
use std::path::PathBuf;
use std::str::FromStr;
$(
pub fn $opt(cg: &mut $struct_name, v: Option<&str>) -> bool {
$parse(&mut cg.$opt, v)
}
)*
fn parse_bool(slot: &mut bool, v: Option<&str>) -> bool {
match v {
Some(..) => false,
None => { *slot = true; true }
}
}
fn parse_opt_bool(slot: &mut Option<bool>, v: Option<&str>) -> bool {
match v {
Some(s) => {
match s {
"n" | "no" | "off" => {
*slot = Some(false);
}
"y" | "yes" | "on" => {
*slot = Some(true);
}
_ => { return false; }
}
true
},
None => { *slot = Some(true); true }
}
}
fn parse_opt_string(slot: &mut Option<String>, v: Option<&str>) -> bool {
match v {
Some(s) => { *slot = Some(s.to_string()); true },
None => false,
}
}
fn parse_opt_pathbuf(slot: &mut Option<PathBuf>, v: Option<&str>) -> bool {
match v {
Some(s) => { *slot = Some(PathBuf::from(s)); true },
None => false,
}
}
fn parse_string(slot: &mut String, v: Option<&str>) -> bool {
match v {
Some(s) => { *slot = s.to_string(); true },
None => false,
}
}
fn parse_string_push(slot: &mut Vec<String>, v: Option<&str>) -> bool {
match v {
Some(s) => { slot.push(s.to_string()); true },
None => false,
}
}
fn parse_pathbuf_push(slot: &mut Vec<PathBuf>, v: Option<&str>) -> bool {
match v {
Some(s) => { slot.push(PathBuf::from(s)); true },
None => false,
}
}
fn parse_list(slot: &mut Vec<String>, v: Option<&str>)
-> bool {
match v {
Some(s) => {
slot.extend(s.split_whitespace().map(|s| s.to_string()));
true
},
None => false,
}
}
fn parse_opt_list(slot: &mut Option<Vec<String>>, v: Option<&str>)
-> bool {
match v {
Some(s) => {
let v = s.split_whitespace().map(|s| s.to_string()).collect();
*slot = Some(v);
true
},
None => false,
}
}
fn parse_opt_comma_list(slot: &mut Option<Vec<String>>, v: Option<&str>)
-> bool {
match v {
Some(s) => {
let v = s.split(',').map(|s| s.to_string()).collect();
*slot = Some(v);
true
},
None => false,
}
}
fn parse_threads(slot: &mut usize, v: Option<&str>) -> bool {
match v.and_then(|s| s.parse().ok()) {
Some(0) => { *slot = ::num_cpus::get(); true },
Some(i) => { *slot = i; true },
None => false
}
}
fn parse_uint(slot: &mut usize, v: Option<&str>) -> bool {
match v.and_then(|s| s.parse().ok()) {
Some(i) => { *slot = i; true },
None => false
}
}
fn parse_opt_uint(slot: &mut Option<usize>, v: Option<&str>) -> bool {
match v {
Some(s) => { *slot = s.parse().ok(); slot.is_some() }
None => { *slot = None; false }
}
}
fn parse_passes(slot: &mut Passes, v: Option<&str>) -> bool {
match v {
Some("all") => {
*slot = Passes::All;
true
}
v => {
let mut passes = vec![];
if parse_list(&mut passes, v) {
*slot = Passes::Some(passes);
true
} else {
false
}
}
}
}
fn parse_panic_strategy(slot: &mut Option<PanicStrategy>, v: Option<&str>) -> bool {
match v {
Some("unwind") => *slot = Some(PanicStrategy::Unwind),
Some("abort") => *slot = Some(PanicStrategy::Abort),
_ => return false
}
true
}