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#[cfg(feature="master")]
use gccjit::Context;
use smallvec::{smallvec, SmallVec};
use rustc_data_structures::fx::FxHashMap;
use rustc_middle::bug;
use rustc_session::Session;
use rustc_target::target_features::RUSTC_SPECIFIC_FEATURES;
use crate::errors::{PossibleFeature, TargetFeatureDisableOrEnable, UnknownCTargetFeature, UnknownCTargetFeaturePrefix};
/// The list of GCC features computed from CLI flags (`-Ctarget-cpu`, `-Ctarget-feature`,
/// `--target` and similar).
pub(crate) fn global_gcc_features(sess: &Session, diagnostics: bool) -> Vec<String> {
// Features that come earlier are overridden by conflicting features later in the string.
// Typically we'll want more explicit settings to override the implicit ones, so:
//
// * Features from -Ctarget-cpu=*; are overridden by [^1]
// * Features implied by --target; are overridden by
// * Features from -Ctarget-feature; are overridden by
// * function specific features.
//
// [^1]: target-cpu=native is handled here, other target-cpu values are handled implicitly
// through GCC march implementation.
//
// FIXME(nagisa): it isn't clear what's the best interaction between features implied by
// `-Ctarget-cpu` and `--target` are. On one hand, you'd expect CLI arguments to always
// override anything that's implicit, so e.g. when there's no `--target` flag, features implied
// the host target are overridden by `-Ctarget-cpu=*`. On the other hand, what about when both
// `--target` and `-Ctarget-cpu=*` are specified? Both then imply some target features and both
// flags are specified by the user on the CLI. It isn't as clear-cut which order of precedence
// should be taken in cases like these.
let mut features = vec![];
// Features implied by an implicit or explicit `--target`.
features.extend(
sess.target
.features
.split(',')
.filter(|v| !v.is_empty() && backend_feature_name(v).is_some())
.map(String::from),
);
// -Ctarget-features
let supported_features = sess.target.supported_target_features();
let mut featsmap = FxHashMap::default();
let feats = sess.opts.cg.target_feature
.split(',')
.filter_map(|s| {
let enable_disable = match s.chars().next() {
None => return None,
Some(c @ ('+' | '-')) => c,
Some(_) => {
if diagnostics {
sess.emit_warning(UnknownCTargetFeaturePrefix { feature: s });
}
return None;
}
};
let feature = backend_feature_name(s)?;
// Warn against use of GCC specific feature names on the CLI.
if diagnostics && !supported_features.iter().any(|&(v, _)| v == feature) {
let rust_feature = supported_features.iter().find_map(|&(rust_feature, _)| {
let gcc_features = to_gcc_features(sess, rust_feature);
if gcc_features.contains(&feature) && !gcc_features.contains(&rust_feature) {
Some(rust_feature)
} else {
None
}
});
let unknown_feature =
if let Some(rust_feature) = rust_feature {
UnknownCTargetFeature {
feature,
rust_feature: PossibleFeature::Some { rust_feature },
}
}
else {
UnknownCTargetFeature { feature, rust_feature: PossibleFeature::None }
};
sess.emit_warning(unknown_feature);
}
if diagnostics {
// FIXME(nagisa): figure out how to not allocate a full hashset here.
featsmap.insert(feature, enable_disable == '+');
}
// rustc-specific features do not get passed down to GCC…
if RUSTC_SPECIFIC_FEATURES.contains(&feature) {
return None;
}
// ... otherwise though we run through `to_gcc_features` when
// passing requests down to GCC. This means that all in-language
// features also work on the command line instead of having two
// different names when the GCC name and the Rust name differ.
Some(to_gcc_features(sess, feature)
.iter()
.flat_map(|feat| to_gcc_features(sess, feat).into_iter())
.map(|feature| {
if enable_disable == '-' {
format!("-{}", feature)
}
else {
feature.to_string()
}
})
.collect::<Vec<_>>(),
)
})
.flatten();
features.extend(feats);
if diagnostics {
if let Some(f) = check_tied_features(sess, &featsmap) {
sess.emit_err(TargetFeatureDisableOrEnable {
features: f,
span: None,
missing_features: None,
});
}
}
features
}
/// Returns a feature name for the given `+feature` or `-feature` string.
///
/// Only allows features that are backend specific (i.e. not [`RUSTC_SPECIFIC_FEATURES`].)
fn backend_feature_name(s: &str) -> Option<&str> {
// features must start with a `+` or `-`.
let feature = s.strip_prefix(&['+', '-'][..]).unwrap_or_else(|| {
bug!("target feature `{}` must begin with a `+` or `-`", s);
});
// Rustc-specific feature requests like `+crt-static` or `-crt-static`
// are not passed down to GCC.
if RUSTC_SPECIFIC_FEATURES.contains(&feature) {
return None;
}
Some(feature)
}
// To find a list of GCC's names, check https://gcc.gnu.org/onlinedocs/gcc/Function-Attributes.html
pub fn to_gcc_features<'a>(sess: &Session, s: &'a str) -> SmallVec<[&'a str; 2]> {
let arch = if sess.target.arch == "x86_64" { "x86" } else { &*sess.target.arch };
match (arch, s) {
("x86", "sse4.2") => smallvec!["sse4.2", "crc32"],
("x86", "pclmulqdq") => smallvec!["pclmul"],
("x86", "rdrand") => smallvec!["rdrnd"],
("x86", "bmi1") => smallvec!["bmi"],
("x86", "cmpxchg16b") => smallvec!["cx16"],
("x86", "avx512vaes") => smallvec!["vaes"],
("x86", "avx512gfni") => smallvec!["gfni"],
("x86", "avx512vpclmulqdq") => smallvec!["vpclmulqdq"],
// NOTE: seems like GCC requires 'avx512bw' for 'avx512vbmi2'.
("x86", "avx512vbmi2") => smallvec!["avx512vbmi2", "avx512bw"],
// NOTE: seems like GCC requires 'avx512bw' for 'avx512bitalg'.
("x86", "avx512bitalg") => smallvec!["avx512bitalg", "avx512bw"],
("aarch64", "rcpc2") => smallvec!["rcpc-immo"],
("aarch64", "dpb") => smallvec!["ccpp"],
("aarch64", "dpb2") => smallvec!["ccdp"],
("aarch64", "frintts") => smallvec!["fptoint"],
("aarch64", "fcma") => smallvec!["complxnum"],
("aarch64", "pmuv3") => smallvec!["perfmon"],
("aarch64", "paca") => smallvec!["pauth"],
("aarch64", "pacg") => smallvec!["pauth"],
// Rust ties fp and neon together. In GCC neon implicitly enables fp,
// but we manually enable neon when a feature only implicitly enables fp
("aarch64", "f32mm") => smallvec!["f32mm", "neon"],
("aarch64", "f64mm") => smallvec!["f64mm", "neon"],
("aarch64", "fhm") => smallvec!["fp16fml", "neon"],
("aarch64", "fp16") => smallvec!["fullfp16", "neon"],
("aarch64", "jsconv") => smallvec!["jsconv", "neon"],
("aarch64", "sve") => smallvec!["sve", "neon"],
("aarch64", "sve2") => smallvec!["sve2", "neon"],
("aarch64", "sve2-aes") => smallvec!["sve2-aes", "neon"],
("aarch64", "sve2-sm4") => smallvec!["sve2-sm4", "neon"],
("aarch64", "sve2-sha3") => smallvec!["sve2-sha3", "neon"],
("aarch64", "sve2-bitperm") => smallvec!["sve2-bitperm", "neon"],
(_, s) => smallvec![s],
}
}
// Given a map from target_features to whether they are enabled or disabled,
// ensure only valid combinations are allowed.
pub fn check_tied_features(sess: &Session, features: &FxHashMap<&str, bool>) -> Option<&'static [&'static str]> {
for tied in sess.target.tied_target_features() {
// Tied features must be set to the same value, or not set at all
let mut tied_iter = tied.iter();
let enabled = features.get(tied_iter.next().unwrap());
if tied_iter.any(|feature| enabled != features.get(feature)) {
return Some(tied);
}
}
None
}
fn arch_to_gcc(name: &str) -> &str {
match name {
"M68020" => "68020",
_ => name,
}
}
fn handle_native(name: &str) -> &str {
if name != "native" {
return arch_to_gcc(name);
}
#[cfg(feature="master")]
{
// Get the native arch.
let context = Context::default();
context.get_target_info().arch().unwrap()
.to_str()
.unwrap()
}
#[cfg(not(feature="master"))]
unimplemented!();
}
pub fn target_cpu(sess: &Session) -> &str {
match sess.opts.cg.target_cpu {
Some(ref name) => handle_native(name),
None => handle_native(sess.target.cpu.as_ref()),
}
}
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