rust/src/librustc_session/session.rs

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use crate::cgu_reuse_tracker::CguReuseTracker;
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use crate::code_stats::CodeStats;
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pub use crate::code_stats::{DataTypeKind, FieldInfo, SizeKind, VariantInfo};
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use crate::config::{self, OutputType, PrintRequest, Sanitizer, SwitchWithOptPath};
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use crate::filesearch;
use crate::lint;
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use crate::parse::ParseSess;
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use crate::search_paths::{PathKind, SearchPath};
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pub use rustc_ast::crate_disambiguator::CrateDisambiguator;
use rustc_data_structures::flock;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_data_structures::jobserver::{self, Client};
use rustc_data_structures::profiling::{duration_to_secs_str, SelfProfiler, SelfProfilerRef};
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use rustc_data_structures::sync::{
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self, AtomicU64, AtomicUsize, Lock, Lrc, Once, OneThread, Ordering, Ordering::SeqCst,
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};
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use rustc_errors::annotate_snippet_emitter_writer::AnnotateSnippetEmitterWriter;
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use rustc_errors::emitter::{Emitter, EmitterWriter, HumanReadableErrorType};
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use rustc_errors::json::JsonEmitter;
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use rustc_errors::{Applicability, DiagnosticBuilder, DiagnosticId, ErrorReported};
use rustc_span::edition::Edition;
use rustc_span::source_map::{self, FileLoader, MultiSpan, RealFileLoader, SourceMap, Span};
use rustc_span::SourceFileHashAlgorithm;
use rustc_target::spec::{PanicStrategy, RelocModel, RelroLevel, Target, TargetTriple, TlsModel};
use std::cell::{self, RefCell};
use std::env;
use std::io::Write;
use std::num::NonZeroU32;
use std::path::PathBuf;
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use std::sync::Arc;
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use std::time::Duration;
pub struct OptimizationFuel {
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/// If `-zfuel=crate=n` is specified, initially set to `n`, otherwise `0`.
remaining: u64,
/// We're rejecting all further optimizations.
out_of_fuel: bool,
}
/// The behavior of the CTFE engine when an error occurs with regards to backtraces.
#[derive(Clone, Copy)]
pub enum CtfeBacktrace {
/// Do nothing special, return the error as usual without a backtrace.
Disabled,
/// Capture a backtrace at the point the error is created and return it in the error
/// (to be printed later if/when the error ever actually gets shown to the user).
Capture,
/// Capture a backtrace at the point the error is created and immediately print it out.
Immediate,
}
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/// Represents the data associated with a compilation
/// session for a single crate.
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pub struct Session {
pub target: config::Config,
pub host: Target,
pub opts: config::Options,
pub host_tlib_path: SearchPath,
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/// `None` if the host and target are the same.
pub target_tlib_path: Option<SearchPath>,
pub parse_sess: ParseSess,
pub sysroot: PathBuf,
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/// The name of the root source file of the crate, in the local file system.
/// `None` means that there is no source file.
pub local_crate_source_file: Option<PathBuf>,
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/// The directory the compiler has been executed in plus a flag indicating
/// if the value stored here has been affected by path remapping.
pub working_dir: (PathBuf, bool),
/// Set of `(DiagnosticId, Option<Span>, message)` tuples tracking
/// (sub)diagnostics that have been set once, but should not be set again,
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/// in order to avoid redundantly verbose output (Issue #24690, #44953).
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pub one_time_diagnostics: Lock<FxHashSet<(DiagnosticMessageId, Option<Span>, String)>>,
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pub crate_types: Once<Vec<config::CrateType>>,
/// The `crate_disambiguator` is constructed out of all the `-C metadata`
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/// arguments passed to the compiler. Its value together with the crate-name
/// forms a unique global identifier for the crate. It is used to allow
/// multiple crates with the same name to coexist. See the
/// `rustc_codegen_llvm::back::symbol_names` module for more information.
pub crate_disambiguator: Once<CrateDisambiguator>,
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features: Once<rustc_feature::Features>,
/// The maximum recursion limit for potentially infinitely recursive
/// operations such as auto-dereference and monomorphization.
pub recursion_limit: Once<usize>,
/// The maximum length of types during monomorphization.
pub type_length_limit: Once<usize>,
/// The maximum blocks a const expression can evaluate.
pub const_eval_limit: Once<usize>,
incr_comp_session: OneThread<RefCell<IncrCompSession>>,
/// Used for incremental compilation tests. Will only be populated if
/// `-Zquery-dep-graph` is specified.
pub cgu_reuse_tracker: CguReuseTracker,
/// Used by `-Z self-profile`.
pub prof: SelfProfilerRef,
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/// Some measurements that are being gathered during compilation.
pub perf_stats: PerfStats,
/// Data about code being compiled, gathered during compilation.
pub code_stats: CodeStats,
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/// If `-zfuel=crate=n` is specified, `Some(crate)`.
optimization_fuel_crate: Option<String>,
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/// Tracks fuel info if `-zfuel=crate=n` is specified.
optimization_fuel: Lock<OptimizationFuel>,
// The next two are public because the driver needs to read them.
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/// If `-zprint-fuel=crate`, `Some(crate)`.
pub print_fuel_crate: Option<String>,
/// Always set to zero and incremented so that we can print fuel expended by a crate.
pub print_fuel: AtomicU64,
/// Loaded up early on in the initialization of this `Session` to avoid
/// false positives about a job server in our environment.
pub jobserver: Client,
/// Cap lint level specified by a driver specifically.
pub driver_lint_caps: FxHashMap<lint::LintId, lint::Level>,
/// `Span`s of trait methods that weren't found to avoid emitting object safety errors
pub trait_methods_not_found: Lock<FxHashSet<Span>>,
/// Mapping from ident span to path span for paths that don't exist as written, but that
/// exist under `std`. For example, wrote `str::from_utf8` instead of `std::str::from_utf8`.
pub confused_type_with_std_module: Lock<FxHashMap<Span, Span>>,
/// Path for libraries that will take preference over libraries shipped by Rust.
/// Used by windows-gnu targets to priortize system mingw-w64 libraries.
pub system_library_path: OneThread<RefCell<Option<Option<PathBuf>>>>,
/// Tracks the current behavior of the CTFE engine when an error occurs.
/// Options range from returning the error without a backtrace to returning an error
/// and immediately printing the backtrace to stderr.
pub ctfe_backtrace: Lock<CtfeBacktrace>,
/// Base directory containing the `src/` for the Rust standard library, and
/// potentially `rustc` as well, if we can can find it. Right now it's always
/// `$sysroot/lib/rustlib/src/rust` (i.e. the `rustup` `rust-src` component).
///
/// This directory is what the virtual `/rustc/$hash` is translated back to,
/// if Rust was built with path remapping to `/rustc/$hash` enabled
/// (the `rust.remap-debuginfo` option in `config.toml`).
pub real_rust_source_base_dir: Option<PathBuf>,
}
pub struct PerfStats {
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/// The accumulated time spent on computing symbol hashes.
pub symbol_hash_time: Lock<Duration>,
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/// The accumulated time spent decoding def path tables from metadata.
pub decode_def_path_tables_time: Lock<Duration>,
/// Total number of values canonicalized queries constructed.
pub queries_canonicalized: AtomicUsize,
/// Number of times this query is invoked.
pub normalize_generic_arg_after_erasing_regions: AtomicUsize,
/// Number of times this query is invoked.
pub normalize_projection_ty: AtomicUsize,
}
/// Enum to support dispatch of one-time diagnostics (in `Session.diag_once`).
enum DiagnosticBuilderMethod {
Note,
SpanNote,
SpanSuggestion(String), // suggestion
// Add more variants as needed to support one-time diagnostics.
}
/// Diagnostic message ID, used by `Session.one_time_diagnostics` to avoid
/// emitting the same message more than once.
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#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub enum DiagnosticMessageId {
ErrorId(u16), // EXXXX error code as integer
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LintId(lint::LintId),
StabilityId(Option<NonZeroU32>), // issue number
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}
impl From<&'static lint::Lint> for DiagnosticMessageId {
fn from(lint: &'static lint::Lint) -> Self {
DiagnosticMessageId::LintId(lint::LintId::of(lint))
}
}
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impl Session {
pub fn local_crate_disambiguator(&self) -> CrateDisambiguator {
*self.crate_disambiguator.get()
}
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pub fn struct_span_warn<S: Into<MultiSpan>>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_span_warn(sp, msg)
}
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pub fn struct_span_warn_with_code<S: Into<MultiSpan>>(
&self,
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sp: S,
msg: &str,
code: DiagnosticId,
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) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_span_warn_with_code(sp, msg, code)
}
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pub fn struct_warn(&self, msg: &str) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_warn(msg)
}
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pub fn struct_span_err<S: Into<MultiSpan>>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> {
self.diagnostic().struct_span_err(sp, msg)
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}
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pub fn struct_span_err_with_code<S: Into<MultiSpan>>(
&self,
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sp: S,
msg: &str,
code: DiagnosticId,
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) -> DiagnosticBuilder<'_> {
self.diagnostic().struct_span_err_with_code(sp, msg, code)
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}
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// FIXME: This method should be removed (every error should have an associated error code).
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pub fn struct_err(&self, msg: &str) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_err(msg)
}
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pub fn struct_err_with_code(&self, msg: &str, code: DiagnosticId) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_err_with_code(msg, code)
}
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pub fn struct_span_fatal<S: Into<MultiSpan>>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_span_fatal(sp, msg)
}
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pub fn struct_span_fatal_with_code<S: Into<MultiSpan>>(
&self,
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sp: S,
msg: &str,
code: DiagnosticId,
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) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_span_fatal_with_code(sp, msg, code)
}
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pub fn struct_fatal(&self, msg: &str) -> DiagnosticBuilder<'_> {
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self.diagnostic().struct_fatal(msg)
}
pub fn span_fatal<S: Into<MultiSpan>>(&self, sp: S, msg: &str) -> ! {
self.diagnostic().span_fatal(sp, msg).raise()
}
pub fn span_fatal_with_code<S: Into<MultiSpan>>(
&self,
sp: S,
msg: &str,
code: DiagnosticId,
) -> ! {
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self.diagnostic().span_fatal_with_code(sp, msg, code).raise()
}
pub fn fatal(&self, msg: &str) -> ! {
self.diagnostic().fatal(msg).raise()
}
pub fn span_err_or_warn<S: Into<MultiSpan>>(&self, is_warning: bool, sp: S, msg: &str) {
if is_warning {
self.span_warn(sp, msg);
} else {
self.span_err(sp, msg);
}
}
pub fn span_err<S: Into<MultiSpan>>(&self, sp: S, msg: &str) {
self.diagnostic().span_err(sp, msg)
}
pub fn span_err_with_code<S: Into<MultiSpan>>(&self, sp: S, msg: &str, code: DiagnosticId) {
self.diagnostic().span_err_with_code(sp, &msg, code)
}
pub fn err(&self, msg: &str) {
self.diagnostic().err(msg)
}
pub fn err_count(&self) -> usize {
self.diagnostic().err_count()
}
pub fn has_errors(&self) -> bool {
self.diagnostic().has_errors()
}
pub fn has_errors_or_delayed_span_bugs(&self) -> bool {
self.diagnostic().has_errors_or_delayed_span_bugs()
}
pub fn abort_if_errors(&self) {
self.diagnostic().abort_if_errors();
}
pub fn compile_status(&self) -> Result<(), ErrorReported> {
if self.has_errors() {
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self.diagnostic().emit_stashed_diagnostics();
Err(ErrorReported)
} else {
Ok(())
}
}
// FIXME(matthewjasper) Remove this method, it should never be needed.
pub fn track_errors<F, T>(&self, f: F) -> Result<T, ErrorReported>
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where
F: FnOnce() -> T,
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{
let old_count = self.err_count();
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let result = f();
let errors = self.err_count() - old_count;
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if errors == 0 { Ok(result) } else { Err(ErrorReported) }
}
pub fn span_warn<S: Into<MultiSpan>>(&self, sp: S, msg: &str) {
self.diagnostic().span_warn(sp, msg)
}
pub fn span_warn_with_code<S: Into<MultiSpan>>(&self, sp: S, msg: &str, code: DiagnosticId) {
self.diagnostic().span_warn_with_code(sp, msg, code)
}
pub fn warn(&self, msg: &str) {
self.diagnostic().warn(msg)
}
pub fn opt_span_warn<S: Into<MultiSpan>>(&self, opt_sp: Option<S>, msg: &str) {
match opt_sp {
Some(sp) => self.span_warn(sp, msg),
None => self.warn(msg),
}
}
/// Delay a span_bug() call until abort_if_errors()
pub fn delay_span_bug<S: Into<MultiSpan>>(&self, sp: S, msg: &str) {
self.diagnostic().delay_span_bug(sp, msg)
}
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pub fn note_without_error(&self, msg: &str) {
self.diagnostic().note_without_error(msg)
}
pub fn span_note_without_error<S: Into<MultiSpan>>(&self, sp: S, msg: &str) {
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self.diagnostic().span_note_without_error(sp, msg)
}
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pub fn diagnostic(&self) -> &rustc_errors::Handler {
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&self.parse_sess.span_diagnostic
}
/// Analogous to calling methods on the given `DiagnosticBuilder`, but
/// deduplicates on lint ID, span (if any), and message for this `Session`
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fn diag_once<'a, 'b>(
&'a self,
diag_builder: &'b mut DiagnosticBuilder<'a>,
method: DiagnosticBuilderMethod,
msg_id: DiagnosticMessageId,
message: &str,
span_maybe: Option<Span>,
) {
let id_span_message = (msg_id, span_maybe, message.to_owned());
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let fresh = self.one_time_diagnostics.borrow_mut().insert(id_span_message);
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if fresh {
match method {
DiagnosticBuilderMethod::Note => {
diag_builder.note(message);
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}
DiagnosticBuilderMethod::SpanNote => {
let span = span_maybe.expect("`span_note` needs a span");
diag_builder.span_note(span, message);
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}
DiagnosticBuilderMethod::SpanSuggestion(suggestion) => {
let span = span_maybe.expect("`span_suggestion_*` needs a span");
diag_builder.span_suggestion(
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span,
message,
suggestion,
Applicability::Unspecified,
);
}
}
}
}
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pub fn diag_span_note_once<'a, 'b>(
&'a self,
diag_builder: &'b mut DiagnosticBuilder<'a>,
msg_id: DiagnosticMessageId,
span: Span,
message: &str,
) {
self.diag_once(
diag_builder,
DiagnosticBuilderMethod::SpanNote,
msg_id,
message,
Some(span),
);
}
pub fn diag_note_once<'a, 'b>(
&'a self,
diag_builder: &'b mut DiagnosticBuilder<'a>,
msg_id: DiagnosticMessageId,
message: &str,
) {
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self.diag_once(diag_builder, DiagnosticBuilderMethod::Note, msg_id, message, None);
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}
pub fn diag_span_suggestion_once<'a, 'b>(
&'a self,
diag_builder: &'b mut DiagnosticBuilder<'a>,
msg_id: DiagnosticMessageId,
span: Span,
message: &str,
suggestion: String,
) {
self.diag_once(
diag_builder,
DiagnosticBuilderMethod::SpanSuggestion(suggestion),
msg_id,
message,
Some(span),
);
}
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#[inline]
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pub fn source_map(&self) -> &source_map::SourceMap {
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self.parse_sess.source_map()
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}
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pub fn verbose(&self) -> bool {
self.opts.debugging_opts.verbose
}
pub fn time_passes(&self) -> bool {
self.opts.debugging_opts.time_passes || self.opts.debugging_opts.time
}
pub fn instrument_mcount(&self) -> bool {
self.opts.debugging_opts.instrument_mcount
}
pub fn time_llvm_passes(&self) -> bool {
self.opts.debugging_opts.time_llvm_passes
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}
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pub fn meta_stats(&self) -> bool {
self.opts.debugging_opts.meta_stats
}
pub fn asm_comments(&self) -> bool {
self.opts.debugging_opts.asm_comments
}
pub fn verify_llvm_ir(&self) -> bool {
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self.opts.debugging_opts.verify_llvm_ir || cfg!(always_verify_llvm_ir)
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}
pub fn borrowck_stats(&self) -> bool {
self.opts.debugging_opts.borrowck_stats
}
pub fn print_llvm_passes(&self) -> bool {
self.opts.debugging_opts.print_llvm_passes
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}
pub fn binary_dep_depinfo(&self) -> bool {
self.opts.debugging_opts.binary_dep_depinfo
}
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/// Gets the features enabled for the current compilation session.
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/// DO NOT USE THIS METHOD if there is a TyCtxt available, as it circumvents
/// dependency tracking. Use tcx.features() instead.
#[inline]
pub fn features_untracked(&self) -> &rustc_feature::Features {
self.features.get()
}
pub fn init_features(&self, features: rustc_feature::Features) {
self.features.set(features);
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}
/// Calculates the flavor of LTO to use for this compilation.
pub fn lto(&self) -> config::Lto {
// If our target has codegen requirements ignore the command line
if self.target.target.options.requires_lto {
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return config::Lto::Fat;
}
// If the user specified something, return that. If they only said `-C
// lto` and we've for whatever reason forced off ThinLTO via the CLI,
// then ensure we can't use a ThinLTO.
match self.opts.cg.lto {
config::LtoCli::Unspecified => {
// The compiler was invoked without the `-Clto` flag. Fall
// through to the default handling
}
config::LtoCli::No => {
// The user explicitly opted out of any kind of LTO
return config::Lto::No;
}
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config::LtoCli::Yes | config::LtoCli::Fat | config::LtoCli::NoParam => {
// All of these mean fat LTO
return config::Lto::Fat;
}
config::LtoCli::Thin => {
return if self.opts.cli_forced_thinlto_off {
config::Lto::Fat
} else {
config::Lto::Thin
};
}
}
// Ok at this point the target doesn't require anything and the user
// hasn't asked for anything. Our next decision is whether or not
// we enable "auto" ThinLTO where we use multiple codegen units and
// then do ThinLTO over those codegen units. The logic below will
// either return `No` or `ThinLocal`.
// If processing command line options determined that we're incompatible
// with ThinLTO (e.g., `-C lto --emit llvm-ir`) then return that option.
if self.opts.cli_forced_thinlto_off {
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return config::Lto::No;
}
// If `-Z thinlto` specified process that, but note that this is mostly
// a deprecated option now that `-C lto=thin` exists.
if let Some(enabled) = self.opts.debugging_opts.thinlto {
if enabled {
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return config::Lto::ThinLocal;
} else {
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return config::Lto::No;
}
}
// If there's only one codegen unit and LTO isn't enabled then there's
// no need for ThinLTO so just return false.
if self.codegen_units() == 1 {
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return config::Lto::No;
}
// Now we're in "defaults" territory. By default we enable ThinLTO for
// optimized compiles (anything greater than O0).
match self.opts.optimize {
config::OptLevel::No => config::Lto::No,
_ => config::Lto::ThinLocal,
}
Implement LTO This commit implements LTO for rust leveraging LLVM's passes. What this means is: * When compiling an rlib, in addition to insdering foo.o into the archive, also insert foo.bc (the LLVM bytecode) of the optimized module. * When the compiler detects the -Z lto option, it will attempt to perform LTO on a staticlib or binary output. The compiler will emit an error if a dylib or rlib output is being generated. * The actual act of performing LTO is as follows: 1. Force all upstream libraries to have an rlib version available. 2. Load the bytecode of each upstream library from the rlib. 3. Link all this bytecode into the current LLVM module (just using llvm apis) 4. Run an internalization pass which internalizes all symbols except those found reachable for the local crate of compilation. 5. Run the LLVM LTO pass manager over this entire module 6a. If assembling an archive, then add all upstream rlibs into the output archive. This ignores all of the object/bitcode/metadata files rust generated and placed inside the rlibs. 6b. If linking a binary, create copies of all upstream rlibs, remove the rust-generated object-file, and then link everything as usual. As I have explained in #10741, this process is excruciatingly slow, so this is *not* turned on by default, and it is also why I have decided to hide it behind a -Z flag for now. The good news is that the binary sizes are about as small as they can be as a result of LTO, so it's definitely working. Closes #10741 Closes #10740
2013-12-03 01:19:29 -06:00
}
/// Returns the panic strategy for this compile session. If the user explicitly selected one
/// using '-C panic', use that, otherwise use the panic strategy defined by the target.
pub fn panic_strategy(&self) -> PanicStrategy {
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self.opts.cg.panic.unwrap_or(self.target.target.options.panic_strategy)
}
pub fn fewer_names(&self) -> bool {
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let more_names = self.opts.output_types.contains_key(&OutputType::LlvmAssembly)
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|| self.opts.output_types.contains_key(&OutputType::Bitcode);
// Address sanitizer and memory sanitizer use alloca name when reporting an issue.
let more_names = match self.opts.debugging_opts.sanitizer {
Some(Sanitizer::Address) => true,
Some(Sanitizer::Memory) => true,
_ => more_names,
};
self.opts.debugging_opts.fewer_names || !more_names
}
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pub fn unstable_options(&self) -> bool {
self.opts.debugging_opts.unstable_options
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}
pub fn overflow_checks(&self) -> bool {
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self.opts
.cg
.overflow_checks
.or(self.opts.debugging_opts.force_overflow_checks)
.unwrap_or(self.opts.debug_assertions)
}
/// Check whether this compile session and crate type use static crt.
pub fn crt_static(&self, crate_type: Option<config::CrateType>) -> bool {
// If the target does not opt in to crt-static support, use its default.
if self.target.target.options.crt_static_respected {
self.crt_static_feature(crate_type)
} else {
self.target.target.options.crt_static_default
}
}
/// Check whether this compile session and crate type use `crt-static` feature.
pub fn crt_static_feature(&self, crate_type: Option<config::CrateType>) -> bool {
let requested_features = self.opts.cg.target_feature.split(',');
let found_negative = requested_features.clone().any(|r| r == "-crt-static");
let found_positive = requested_features.clone().any(|r| r == "+crt-static");
if found_positive || found_negative {
found_positive
} else if crate_type == Some(config::CrateType::ProcMacro)
|| crate_type == None && self.opts.crate_types.contains(&config::CrateType::ProcMacro)
{
// FIXME: When crate_type is not available,
// we use compiler options to determine the crate_type.
// We can't check `#![crate_type = "proc-macro"]` here.
false
} else {
self.target.target.options.crt_static_default
}
}
pub fn relocation_model(&self) -> RelocModel {
self.opts.cg.relocation_model.unwrap_or(self.target.target.options.relocation_model)
}
pub fn tls_model(&self) -> TlsModel {
self.opts.debugging_opts.tls_model.unwrap_or(self.target.target.options.tls_model)
}
pub fn must_not_eliminate_frame_pointers(&self) -> bool {
// "mcount" function relies on stack pointer.
// See <https://sourceware.org/binutils/docs/gprof/Implementation.html>.
if self.instrument_mcount() {
true
} else if let Some(x) = self.opts.cg.force_frame_pointers {
x
} else {
!self.target.target.options.eliminate_frame_pointer
}
}
/// Returns the symbol name for the registrar function,
/// given the crate `Svh` and the function `DefIndex`.
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pub fn generate_plugin_registrar_symbol(&self, disambiguator: CrateDisambiguator) -> String {
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format!("__rustc_plugin_registrar_{}__", disambiguator.to_fingerprint().to_hex())
}
pub fn generate_proc_macro_decls_symbol(&self, disambiguator: CrateDisambiguator) -> String {
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format!("__rustc_proc_macro_decls_{}__", disambiguator.to_fingerprint().to_hex())
rustc: Implement custom derive (macros 1.1) This commit is an implementation of [RFC 1681] which adds support to the compiler for first-class user-define custom `#[derive]` modes with a far more stable API than plugins have today. [RFC 1681]: https://github.com/rust-lang/rfcs/blob/master/text/1681-macros-1.1.md The main features added by this commit are: * A new `rustc-macro` crate-type. This crate type represents one which will provide custom `derive` implementations and perhaps eventually flower into the implementation of macros 2.0 as well. * A new `rustc_macro` crate in the standard distribution. This crate will provide the runtime interface between macro crates and the compiler. The API here is particularly conservative right now but has quite a bit of room to expand into any manner of APIs required by macro authors. * The ability to load new derive modes through the `#[macro_use]` annotations on other crates. All support added here is gated behind the `rustc_macro` feature gate, both for the library support (the `rustc_macro` crate) as well as the language features. There are a few minor differences from the implementation outlined in the RFC, such as the `rustc_macro` crate being available as a dylib and all symbols are `dlsym`'d directly instead of having a shim compiled. These should only affect the implementation, however, not the public interface. This commit also ended up touching a lot of code related to `#[derive]`, making a few notable changes: * Recognized derive attributes are no longer desugared to `derive_Foo`. Wasn't sure how to keep this behavior and *not* expose it to custom derive. * Derive attributes no longer have access to unstable features by default, they have to opt in on a granular level. * The `derive(Copy,Clone)` optimization is now done through another "obscure attribute" which is just intended to ferry along in the compiler that such an optimization is possible. The `derive(PartialEq,Eq)` optimization was also updated to do something similar. --- One part of this PR which needs to be improved before stabilizing are the errors and exact interfaces here. The error messages are relatively poor quality and there are surprising spects of this such as `#[derive(PartialEq, Eq, MyTrait)]` not working by default. The custom attributes added by the compiler end up becoming unstable again when going through a custom impl. Hopefully though this is enough to start allowing experimentation on crates.io! syntax-[breaking-change]
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}
pub fn target_filesearch(&self, kind: PathKind) -> filesearch::FileSearch<'_> {
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filesearch::FileSearch::new(
&self.sysroot,
self.opts.target_triple.triple(),
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&self.opts.search_paths,
// `target_tlib_path == None` means it's the same as `host_tlib_path`.
self.target_tlib_path.as_ref().unwrap_or(&self.host_tlib_path),
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kind,
)
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}
pub fn host_filesearch(&self, kind: PathKind) -> filesearch::FileSearch<'_> {
filesearch::FileSearch::new(
&self.sysroot,
config::host_triple(),
&self.opts.search_paths,
&self.host_tlib_path,
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kind,
)
}
pub fn set_incr_session_load_dep_graph(&self, load: bool) {
let mut incr_comp_session = self.incr_comp_session.borrow_mut();
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if let IncrCompSession::Active { ref mut load_dep_graph, .. } = *incr_comp_session {
*load_dep_graph = load;
}
}
pub fn incr_session_load_dep_graph(&self) -> bool {
let incr_comp_session = self.incr_comp_session.borrow();
match *incr_comp_session {
IncrCompSession::Active { load_dep_graph, .. } => load_dep_graph,
_ => false,
}
}
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pub fn init_incr_comp_session(
&self,
session_dir: PathBuf,
lock_file: flock::Lock,
load_dep_graph: bool,
) {
let mut incr_comp_session = self.incr_comp_session.borrow_mut();
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if let IncrCompSession::NotInitialized = *incr_comp_session {
} else {
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panic!("Trying to initialize IncrCompSession `{:?}`", *incr_comp_session)
}
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*incr_comp_session =
IncrCompSession::Active { session_directory: session_dir, lock_file, load_dep_graph };
}
pub fn finalize_incr_comp_session(&self, new_directory_path: PathBuf) {
let mut incr_comp_session = self.incr_comp_session.borrow_mut();
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if let IncrCompSession::Active { .. } = *incr_comp_session {
} else {
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panic!("trying to finalize `IncrCompSession` `{:?}`", *incr_comp_session);
}
// Note: this will also drop the lock file, thus unlocking the directory.
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*incr_comp_session = IncrCompSession::Finalized { session_directory: new_directory_path };
}
pub fn mark_incr_comp_session_as_invalid(&self) {
let mut incr_comp_session = self.incr_comp_session.borrow_mut();
let session_directory = match *incr_comp_session {
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IncrCompSession::Active { ref session_directory, .. } => session_directory.clone(),
IncrCompSession::InvalidBecauseOfErrors { .. } => return,
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_ => panic!("trying to invalidate `IncrCompSession` `{:?}`", *incr_comp_session),
};
// Note: this will also drop the lock file, thus unlocking the directory.
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*incr_comp_session = IncrCompSession::InvalidBecauseOfErrors { session_directory };
}
pub fn incr_comp_session_dir(&self) -> cell::Ref<'_, PathBuf> {
let incr_comp_session = self.incr_comp_session.borrow();
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cell::Ref::map(incr_comp_session, |incr_comp_session| match *incr_comp_session {
IncrCompSession::NotInitialized => panic!(
"trying to get session directory from `IncrCompSession`: {:?}",
*incr_comp_session,
),
IncrCompSession::Active { ref session_directory, .. }
| IncrCompSession::Finalized { ref session_directory }
| IncrCompSession::InvalidBecauseOfErrors { ref session_directory } => {
session_directory
}
})
}
pub fn incr_comp_session_dir_opt(&self) -> Option<cell::Ref<'_, PathBuf>> {
self.opts.incremental.as_ref().map(|_| self.incr_comp_session_dir())
}
pub fn print_perf_stats(&self) {
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println!(
"Total time spent computing symbol hashes: {}",
duration_to_secs_str(*self.perf_stats.symbol_hash_time.lock())
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);
println!(
"Total time spent decoding DefPath tables: {}",
duration_to_secs_str(*self.perf_stats.decode_def_path_tables_time.lock())
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);
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println!(
"Total queries canonicalized: {}",
self.perf_stats.queries_canonicalized.load(Ordering::Relaxed)
);
println!(
"normalize_generic_arg_after_erasing_regions: {}",
self.perf_stats.normalize_generic_arg_after_erasing_regions.load(Ordering::Relaxed)
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);
println!(
"normalize_projection_ty: {}",
self.perf_stats.normalize_projection_ty.load(Ordering::Relaxed)
);
}
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/// We want to know if we're allowed to do an optimization for crate foo from -z fuel=foo=n.
/// This expends fuel if applicable, and records fuel if applicable.
pub fn consider_optimizing<T: Fn() -> String>(&self, crate_name: &str, msg: T) -> bool {
let mut ret = true;
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if let Some(ref c) = self.optimization_fuel_crate {
if c == crate_name {
assert_eq!(self.threads(), 1);
let mut fuel = self.optimization_fuel.lock();
ret = fuel.remaining != 0;
if fuel.remaining == 0 && !fuel.out_of_fuel {
eprintln!("optimization-fuel-exhausted: {}", msg());
fuel.out_of_fuel = true;
} else if fuel.remaining > 0 {
fuel.remaining -= 1;
}
}
}
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if let Some(ref c) = self.print_fuel_crate {
if c == crate_name {
assert_eq!(self.threads(), 1);
self.print_fuel.fetch_add(1, SeqCst);
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}
}
ret
}
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/// Returns the number of query threads that should be used for this
/// compilation
pub fn threads(&self) -> usize {
self.opts.debugging_opts.threads
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}
/// Returns the number of codegen units that should be used for this
/// compilation
pub fn codegen_units(&self) -> usize {
if let Some(n) = self.opts.cli_forced_codegen_units {
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return n;
}
if let Some(n) = self.target.target.options.default_codegen_units {
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return n as usize;
}
// If incremental compilation is turned on, we default to a high number
// codegen units in order to reduce the "collateral damage" small
// changes cause.
if self.opts.incremental.is_some() {
return 256;
}
// Why is 16 codegen units the default all the time?
//
// The main reason for enabling multiple codegen units by default is to
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// leverage the ability for the codegen backend to do codegen and
// optimization in parallel. This allows us, especially for large crates, to
// make good use of all available resources on the machine once we've
// hit that stage of compilation. Large crates especially then often
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// take a long time in codegen/optimization and this helps us amortize that
// cost.
//
// Note that a high number here doesn't mean that we'll be spawning a
// large number of threads in parallel. The backend of rustc contains
// global rate limiting through the `jobserver` crate so we'll never
// overload the system with too much work, but rather we'll only be
// optimizing when we're otherwise cooperating with other instances of
// rustc.
//
// Rather a high number here means that we should be able to keep a lot
// of idle cpus busy. By ensuring that no codegen unit takes *too* long
// to build we'll be guaranteed that all cpus will finish pretty closely
// to one another and we should make relatively optimal use of system
// resources
//
// Note that the main cost of codegen units is that it prevents LLVM
// from inlining across codegen units. Users in general don't have a lot
// of control over how codegen units are split up so it's our job in the
// compiler to ensure that undue performance isn't lost when using
// codegen units (aka we can't require everyone to slap `#[inline]` on
// everything).
//
// If we're compiling at `-O0` then the number doesn't really matter too
// much because performance doesn't matter and inlining is ok to lose.
// In debug mode we just want to try to guarantee that no cpu is stuck
// doing work that could otherwise be farmed to others.
//
// In release mode, however (O1 and above) performance does indeed
// matter! To recover the loss in performance due to inlining we'll be
// enabling ThinLTO by default (the function for which is just below).
// This will ensure that we recover any inlining wins we otherwise lost
// through codegen unit partitioning.
//
// ---
//
// Ok that's a lot of words but the basic tl;dr; is that we want a high
// number here -- but not too high. Additionally we're "safe" to have it
// always at the same number at all optimization levels.
//
// As a result 16 was chosen here! Mostly because it was a power of 2
// and most benchmarks agreed it was roughly a local optimum. Not very
// scientific.
16
}
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pub fn teach(&self, code: &DiagnosticId) -> bool {
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self.opts.debugging_opts.teach && self.diagnostic().must_teach(code)
}
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pub fn rust_2015(&self) -> bool {
self.opts.edition == Edition::Edition2015
}
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/// Are we allowed to use features from the Rust 2018 edition?
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pub fn rust_2018(&self) -> bool {
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self.opts.edition >= Edition::Edition2018
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}
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pub fn edition(&self) -> Edition {
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self.opts.edition
}
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/// Returns `true` if we cannot skip the PLT for shared library calls.
pub fn needs_plt(&self) -> bool {
// Check if the current target usually needs PLT to be enabled.
// The user can use the command line flag to override it.
let needs_plt = self.target.target.options.needs_plt;
let dbg_opts = &self.opts.debugging_opts;
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let relro_level = dbg_opts.relro_level.unwrap_or(self.target.target.options.relro_level);
// Only enable this optimization by default if full relro is also enabled.
// In this case, lazy binding was already unavailable, so nothing is lost.
// This also ensures `-Wl,-z,now` is supported by the linker.
let full_relro = RelroLevel::Full == relro_level;
// If user didn't explicitly forced us to use / skip the PLT,
// then try to skip it where possible.
dbg_opts.plt.unwrap_or(needs_plt || !full_relro)
}
}
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pub fn build_session(
sopts: config::Options,
local_crate_source_file: Option<PathBuf>,
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registry: rustc_errors::registry::Registry,
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) -> Session {
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build_session_with_source_map(
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sopts,
local_crate_source_file,
registry,
DiagnosticOutput::Default,
Default::default(),
None,
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)
.0
}
fn default_emitter(
sopts: &config::Options,
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registry: rustc_errors::registry::Registry,
source_map: &Lrc<source_map::SourceMap>,
emitter_dest: Option<Box<dyn Write + Send>>,
) -> Box<dyn Emitter + sync::Send> {
let macro_backtrace = sopts.debugging_opts.macro_backtrace;
match (sopts.error_format, emitter_dest) {
(config::ErrorOutputType::HumanReadable(kind), dst) => {
let (short, color_config) = kind.unzip();
if let HumanReadableErrorType::AnnotateSnippet(_) = kind {
let emitter = AnnotateSnippetEmitterWriter::new(
Some(source_map.clone()),
short,
macro_backtrace,
);
Box::new(emitter.ui_testing(sopts.debugging_opts.ui_testing))
} else {
let emitter = match dst {
None => EmitterWriter::stderr(
color_config,
Some(source_map.clone()),
short,
sopts.debugging_opts.teach,
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sopts.debugging_opts.terminal_width,
macro_backtrace,
),
Some(dst) => EmitterWriter::new(
dst,
Some(source_map.clone()),
short,
false, // no teach messages when writing to a buffer
false, // no colors when writing to a buffer
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None, // no terminal width
macro_backtrace,
),
};
Box::new(emitter.ui_testing(sopts.debugging_opts.ui_testing))
}
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}
(config::ErrorOutputType::Json { pretty, json_rendered }, None) => Box::new(
JsonEmitter::stderr(
Some(registry),
source_map.clone(),
pretty,
json_rendered,
macro_backtrace,
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)
.ui_testing(sopts.debugging_opts.ui_testing),
),
(config::ErrorOutputType::Json { pretty, json_rendered }, Some(dst)) => Box::new(
JsonEmitter::new(
dst,
Some(registry),
source_map.clone(),
pretty,
json_rendered,
macro_backtrace,
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)
.ui_testing(sopts.debugging_opts.ui_testing),
),
}
}
pub enum DiagnosticOutput {
Default,
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Raw(Box<dyn Write + Send>),
}
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pub fn build_session_with_source_map(
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sopts: config::Options,
local_crate_source_file: Option<PathBuf>,
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registry: rustc_errors::registry::Registry,
diagnostics_output: DiagnosticOutput,
driver_lint_caps: FxHashMap<lint::LintId, lint::Level>,
file_loader: Option<Box<dyn FileLoader + Send + Sync + 'static>>,
) -> (Session, Lrc<SourceMap>) {
// FIXME: This is not general enough to make the warning lint completely override
// normal diagnostic warnings, since the warning lint can also be denied and changed
// later via the source code.
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let warnings_allow = sopts
.lint_opts
.iter()
.filter(|&&(ref key, _)| *key == "warnings")
.map(|&(_, ref level)| *level == lint::Allow)
.last()
.unwrap_or(false);
let cap_lints_allow = sopts.lint_cap.map_or(false, |cap| cap == lint::Allow);
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let can_emit_warnings = !(warnings_allow || cap_lints_allow);
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let write_dest = match diagnostics_output {
DiagnosticOutput::Default => None,
DiagnosticOutput::Raw(write) => Some(write),
};
let target_cfg = config::build_target_config(&sopts, sopts.error_format);
let host_triple = TargetTriple::from_triple(config::host_triple());
let host = Target::search(&host_triple).unwrap_or_else(|e| {
early_error(sopts.error_format, &format!("Error loading host specification: {}", e))
});
let loader = file_loader.unwrap_or(Box::new(RealFileLoader));
let hash_kind = sopts.debugging_opts.src_hash_algorithm.unwrap_or_else(|| {
if target_cfg.target.options.is_like_msvc {
SourceFileHashAlgorithm::Sha1
} else {
SourceFileHashAlgorithm::Md5
}
});
let source_map = Lrc::new(SourceMap::with_file_loader_and_hash_kind(
loader,
sopts.file_path_mapping(),
hash_kind,
));
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let emitter = default_emitter(&sopts, registry, &source_map, write_dest);
let span_diagnostic = rustc_errors::Handler::with_emitter_and_flags(
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emitter,
sopts.debugging_opts.diagnostic_handler_flags(can_emit_warnings),
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);
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let self_profiler = if let SwitchWithOptPath::Enabled(ref d) = sopts.debugging_opts.self_profile
{
let directory =
if let Some(ref directory) = d { directory } else { std::path::Path::new(".") };
let profiler = SelfProfiler::new(
directory,
sopts.crate_name.as_ref().map(|s| &s[..]),
&sopts.debugging_opts.self_profile_events,
);
match profiler {
Ok(profiler) => Some(Arc::new(profiler)),
Err(e) => {
early_warn(sopts.error_format, &format!("failed to create profiler: {}", e));
None
}
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}
} else {
None
};
let parse_sess = ParseSess::with_span_handler(span_diagnostic, source_map.clone());
let sysroot = match &sopts.maybe_sysroot {
Some(sysroot) => sysroot.clone(),
None => filesearch::get_or_default_sysroot(),
};
let host_triple = config::host_triple();
let target_triple = sopts.target_triple.triple();
let host_tlib_path = SearchPath::from_sysroot_and_triple(&sysroot, host_triple);
let target_tlib_path = if host_triple == target_triple {
None
} else {
Some(SearchPath::from_sysroot_and_triple(&sysroot, target_triple))
};
let file_path_mapping = sopts.file_path_mapping();
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let local_crate_source_file =
local_crate_source_file.map(|path| file_path_mapping.map_prefix(path).0);
let optimization_fuel_crate = sopts.debugging_opts.fuel.as_ref().map(|i| i.0.clone());
let optimization_fuel = Lock::new(OptimizationFuel {
remaining: sopts.debugging_opts.fuel.as_ref().map(|i| i.1).unwrap_or(0),
out_of_fuel: false,
});
let print_fuel_crate = sopts.debugging_opts.print_fuel.clone();
let print_fuel = AtomicU64::new(0);
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let working_dir = env::current_dir().unwrap_or_else(|e| {
parse_sess.span_diagnostic.fatal(&format!("Current directory is invalid: {}", e)).raise()
});
let working_dir = file_path_mapping.map_prefix(working_dir);
let cgu_reuse_tracker = if sopts.debugging_opts.query_dep_graph {
CguReuseTracker::new()
} else {
CguReuseTracker::new_disabled()
};
let prof = SelfProfilerRef::new(
self_profiler,
sopts.debugging_opts.time_passes || sopts.debugging_opts.time,
sopts.debugging_opts.time_passes,
);
let ctfe_backtrace = Lock::new(match env::var("RUSTC_CTFE_BACKTRACE") {
Ok(ref val) if val == "immediate" => CtfeBacktrace::Immediate,
Ok(ref val) if val != "0" => CtfeBacktrace::Capture,
_ => CtfeBacktrace::Disabled,
});
// Try to find a directory containing the Rust `src`, for more details see
// the doc comment on the `real_rust_source_base_dir` field.
let real_rust_source_base_dir = {
// This is the location used by the `rust-src` `rustup` component.
let mut candidate = sysroot.join("lib/rustlib/src/rust");
if let Ok(metadata) = candidate.symlink_metadata() {
// Replace the symlink rustbuild creates, with its destination.
// We could try to use `fs::canonicalize` instead, but that might
// produce unnecessarily verbose path.
if metadata.file_type().is_symlink() {
if let Ok(symlink_dest) = std::fs::read_link(&candidate) {
candidate = symlink_dest;
}
}
}
// Only use this directory if it has a file we can expect to always find.
if candidate.join("src/libstd/lib.rs").is_file() { Some(candidate) } else { None }
};
let sess = Session {
target: target_cfg,
host,
opts: sopts,
host_tlib_path,
target_tlib_path,
parse_sess,
sysroot,
local_crate_source_file,
working_dir,
one_time_diagnostics: Default::default(),
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crate_types: Once::new(),
crate_disambiguator: Once::new(),
features: Once::new(),
recursion_limit: Once::new(),
type_length_limit: Once::new(),
const_eval_limit: Once::new(),
incr_comp_session: OneThread::new(RefCell::new(IncrCompSession::NotInitialized)),
cgu_reuse_tracker,
prof,
perf_stats: PerfStats {
symbol_hash_time: Lock::new(Duration::from_secs(0)),
decode_def_path_tables_time: Lock::new(Duration::from_secs(0)),
queries_canonicalized: AtomicUsize::new(0),
normalize_generic_arg_after_erasing_regions: AtomicUsize::new(0),
normalize_projection_ty: AtomicUsize::new(0),
},
code_stats: Default::default(),
optimization_fuel_crate,
optimization_fuel,
print_fuel_crate,
print_fuel,
jobserver: jobserver::client(),
driver_lint_caps,
trait_methods_not_found: Lock::new(Default::default()),
confused_type_with_std_module: Lock::new(Default::default()),
system_library_path: OneThread::new(RefCell::new(Default::default())),
ctfe_backtrace,
real_rust_source_base_dir,
};
validate_commandline_args_with_session_available(&sess);
(sess, source_map)
}
// If it is useful to have a Session available already for validating a
// commandline argument, you can do so here.
fn validate_commandline_args_with_session_available(sess: &Session) {
// Since we don't know if code in an rlib will be linked to statically or
// dynamically downstream, rustc generates `__imp_` symbols that help the
// MSVC linker deal with this lack of knowledge (#27438). Unfortunately,
// these manually generated symbols confuse LLD when it tries to merge
// bitcode during ThinLTO. Therefore we disallow dynamic linking on MSVC
// when compiling for LLD ThinLTO. This way we can validly just not generate
// the `dllimport` attributes and `__imp_` symbols in that case.
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if sess.opts.cg.linker_plugin_lto.enabled()
&& sess.opts.cg.prefer_dynamic
&& sess.target.target.options.is_like_msvc
{
sess.err(
"Linker plugin based LTO is not supported together with \
`-C prefer-dynamic` when targeting MSVC",
);
}
// Make sure that any given profiling data actually exists so LLVM can't
// decide to silently skip PGO.
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if let Some(ref path) = sess.opts.cg.profile_use {
if !path.exists() {
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sess.err(&format!(
"File `{}` passed to `-C profile-use` does not exist.",
path.display()
));
}
}
// PGO does not work reliably with panic=unwind on Windows. Let's make it
// an error to combine the two for now. It always runs into an assertions
// if LLVM is built with assertions, but without assertions it sometimes
// does not crash and will probably generate a corrupted binary.
// We should only display this error if we're actually going to run PGO.
// If we're just supposed to print out some data, don't show the error (#61002).
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if sess.opts.cg.profile_generate.enabled()
&& sess.target.target.options.is_like_msvc
&& sess.panic_strategy() == PanicStrategy::Unwind
&& sess.opts.prints.iter().all(|&p| p == PrintRequest::NativeStaticLibs)
{
sess.err(
"Profile-guided optimization does not yet work in conjunction \
with `-Cpanic=unwind` on Windows when targeting MSVC. \
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See issue #61002 <https://github.com/rust-lang/rust/issues/61002> \
for more information.",
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);
}
// Sanitizers can only be used on some tested platforms.
if let Some(ref sanitizer) = sess.opts.debugging_opts.sanitizer {
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const ASAN_SUPPORTED_TARGETS: &[&str] = &[
"x86_64-unknown-linux-gnu",
"x86_64-apple-darwin",
"x86_64-fuchsia",
"aarch64-fuchsia",
];
const TSAN_SUPPORTED_TARGETS: &[&str] =
&["x86_64-unknown-linux-gnu", "x86_64-apple-darwin"];
const LSAN_SUPPORTED_TARGETS: &[&str] =
&["x86_64-unknown-linux-gnu", "x86_64-apple-darwin"];
const MSAN_SUPPORTED_TARGETS: &[&str] = &["x86_64-unknown-linux-gnu"];
let supported_targets = match *sanitizer {
Sanitizer::Address => ASAN_SUPPORTED_TARGETS,
Sanitizer::Thread => TSAN_SUPPORTED_TARGETS,
Sanitizer::Leak => LSAN_SUPPORTED_TARGETS,
Sanitizer::Memory => MSAN_SUPPORTED_TARGETS,
};
if !supported_targets.contains(&&*sess.opts.target_triple.triple()) {
sess.err(&format!(
"{:?}Sanitizer only works with the `{}` target",
sanitizer,
supported_targets.join("` or `")
));
}
}
}
/// Holds data on the current incremental compilation session, if there is one.
#[derive(Debug)]
pub enum IncrCompSession {
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/// This is the state the session will be in until the incr. comp. dir is
/// needed.
NotInitialized,
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/// This is the state during which the session directory is private and can
/// be modified.
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Active { session_directory: PathBuf, lock_file: flock::Lock, load_dep_graph: bool },
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/// This is the state after the session directory has been finalized. In this
/// state, the contents of the directory must not be modified any more.
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Finalized { session_directory: PathBuf },
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/// This is an error state that is reached when some compilation error has
/// occurred. It indicates that the contents of the session directory must
/// not be used, since they might be invalid.
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InvalidBecauseOfErrors { session_directory: PathBuf },
}
pub fn early_error(output: config::ErrorOutputType, msg: &str) -> ! {
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let emitter: Box<dyn Emitter + sync::Send> = match output {
config::ErrorOutputType::HumanReadable(kind) => {
let (short, color_config) = kind.unzip();
Box::new(EmitterWriter::stderr(color_config, None, short, false, None, false))
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}
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config::ErrorOutputType::Json { pretty, json_rendered } => {
Box::new(JsonEmitter::basic(pretty, json_rendered, false))
}
};
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let handler = rustc_errors::Handler::with_emitter(true, None, emitter);
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handler.struct_fatal(msg).emit();
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rustc_errors::FatalError.raise();
}
pub fn early_warn(output: config::ErrorOutputType, msg: &str) {
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let emitter: Box<dyn Emitter + sync::Send> = match output {
config::ErrorOutputType::HumanReadable(kind) => {
let (short, color_config) = kind.unzip();
Box::new(EmitterWriter::stderr(color_config, None, short, false, None, false))
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}
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config::ErrorOutputType::Json { pretty, json_rendered } => {
Box::new(JsonEmitter::basic(pretty, json_rendered, false))
}
};
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let handler = rustc_errors::Handler::with_emitter(true, None, emitter);
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handler.struct_warn(msg).emit();
}
pub type CompileResult = Result<(), ErrorReported>;