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rust/compiler/rustc_codegen_ssa/src/target_features.rs
Dylan DPC 67d6cc6ef3
Rollup merge of #91608 - workingjubilee:fold-neon-fp, r=nagisa,Amanieu 
Fold aarch64 feature +fp into +neon

Arm's FEAT_FP and Feat_AdvSIMD describe the same thing on AArch64:
The Neon unit, which handles both floating point and SIMD instructions.
Moreover, a configuration for AArch64 must include both or neither.
Arm says "entirely proprietary" toolchains may omit floating point:
https://developer.arm.com/documentation/102374/0101/Data-processing---floating-point
In the Programmer's Guide for Armv8-A, Arm says AArch64 can have
both FP and Neon or neither in custom implementations:
https://developer.arm.com/documentation/den0024/a/AArch64-Floating-point-and-NEON

In "Bare metal boot code for Armv8-A", enabling Neon and FP
is just disabling the same trap flag:
https://developer.arm.com/documentation/dai0527/a

In an unlikely future where "Neon and FP" become unrelated,
we can add "[+-]fp" as its own feature flag.
Until then, we can simplify programming with Rust on AArch64 by
folding both into "[+-]neon", which is valid as it supersets both.

"[+-]neon" is retained for niche uses such as firmware, kernels,
"I just hate floats", and so on.

I am... pretty sure no one is relying on this.

An argument could be made that, as we are not an "entirely proprietary" toolchain, we should not support AArch64 without floats at all. I think that's a bit excessive. However, I want to recognize the intent: programming for AArch64 should be simplified where possible. For x86-64, programmers regularly set up illegal feature configurations because it's hard to understand them, see https://github.com/rust-lang/rust/issues/89586. And per the above notes, plus the discussion in https://github.com/rust-lang/rust/issues/86941, there should be no real use cases for leaving these features split: the two should in fact always go together.

- Fixes rust-lang/rust#95002.
- Fixes rust-lang/rust#95064.
- Fixes rust-lang/rust#95122.
2022-03-23 03:05:28 +01:00

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use rustc_hir::def_id::LOCAL_CRATE;
use rustc_middle::ty::query::Providers;
use rustc_session::Session;
use rustc_span::symbol::sym;
use rustc_span::symbol::Symbol;
/// Features that control behaviour of rustc, rather than the codegen.
pub const RUSTC_SPECIFIC_FEATURES: &[&str] = &["crt-static"];
// When adding features to the below lists
// check whether they're named already elsewhere in rust
// e.g. in stdarch and whether the given name matches LLVM's
// if it doesn't, to_llvm_feature in llvm_util in rustc_codegen_llvm needs to be adapted
const ARM_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("aclass", Some(sym::arm_target_feature)),
("mclass", Some(sym::arm_target_feature)),
("rclass", Some(sym::arm_target_feature)),
("dsp", Some(sym::arm_target_feature)),
("neon", Some(sym::arm_target_feature)),
("crc", Some(sym::arm_target_feature)),
("crypto", Some(sym::arm_target_feature)),
("aes", Some(sym::arm_target_feature)),
("sha2", Some(sym::arm_target_feature)),
("i8mm", Some(sym::arm_target_feature)),
("dotprod", Some(sym::arm_target_feature)),
("v5te", Some(sym::arm_target_feature)),
("v6", Some(sym::arm_target_feature)),
("v6k", Some(sym::arm_target_feature)),
("v6t2", Some(sym::arm_target_feature)),
("v7", Some(sym::arm_target_feature)),
("v8", Some(sym::arm_target_feature)),
("vfp2", Some(sym::arm_target_feature)),
("vfp3", Some(sym::arm_target_feature)),
("vfp4", Some(sym::arm_target_feature)),
("fp-armv8", Some(sym::arm_target_feature)),
// This is needed for inline assembly, but shouldn't be stabilized as-is
// since it should be enabled per-function using #[instruction_set], not
// #[target_feature].
("thumb-mode", Some(sym::arm_target_feature)),
("thumb2", Some(sym::arm_target_feature)),
("d32", Some(sym::arm_target_feature)),
];
const AARCH64_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
// FEAT_AdvSimd & FEAT_FP
("neon", None),
// FEAT_FP16
("fp16", None),
// FEAT_SVE
("sve", None),
// FEAT_CRC
("crc", None),
// FEAT_RAS
("ras", None),
// FEAT_LSE
("lse", None),
// FEAT_RDM
("rdm", None),
// FEAT_RCPC
("rcpc", None),
// FEAT_RCPC2
("rcpc2", None),
// FEAT_DotProd
("dotprod", None),
// FEAT_TME
("tme", None),
// FEAT_FHM
("fhm", None),
// FEAT_DIT
("dit", None),
// FEAT_FLAGM
("flagm", None),
// FEAT_SSBS
("ssbs", None),
// FEAT_SB
("sb", None),
// FEAT_PAUTH (address authentication)
("paca", None),
// FEAT_PAUTH (generic authentication)
("pacg", None),
// FEAT_DPB
("dpb", None),
// FEAT_DPB2
("dpb2", None),
// FEAT_SVE2
("sve2", None),
// FEAT_SVE2_AES
("sve2-aes", None),
// FEAT_SVE2_SM4
("sve2-sm4", None),
// FEAT_SVE2_SHA3
("sve2-sha3", None),
// FEAT_SVE2_BitPerm
("sve2-bitperm", None),
// FEAT_FRINTTS
("frintts", None),
// FEAT_I8MM
("i8mm", None),
// FEAT_F32MM
("f32mm", None),
// FEAT_F64MM
("f64mm", None),
// FEAT_BF16
("bf16", None),
// FEAT_RAND
("rand", None),
// FEAT_BTI
("bti", None),
// FEAT_MTE
("mte", None),
// FEAT_JSCVT
("jsconv", None),
// FEAT_FCMA
("fcma", None),
// FEAT_AES
("aes", None),
// FEAT_SHA1 & FEAT_SHA256
("sha2", None),
// FEAT_SHA512 & FEAT_SHA3
("sha3", None),
// FEAT_SM3 & FEAT_SM4
("sm4", None),
// FEAT_PAN
("pan", None),
// FEAT_LOR
("lor", None),
// FEAT_VHE
("vh", None),
// FEAT_PMUv3
("pmuv3", None),
// FEAT_SPE
("spe", None),
("v8.1a", Some(sym::aarch64_ver_target_feature)),
("v8.2a", Some(sym::aarch64_ver_target_feature)),
("v8.3a", Some(sym::aarch64_ver_target_feature)),
("v8.4a", Some(sym::aarch64_ver_target_feature)),
("v8.5a", Some(sym::aarch64_ver_target_feature)),
("v8.6a", Some(sym::aarch64_ver_target_feature)),
("v8.7a", Some(sym::aarch64_ver_target_feature)),
];
const AARCH64_TIED_FEATURES: &[&[&str]] = &[
&["paca", "pacg"], // Together these represent `pauth` in LLVM
];
const X86_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("adx", None),
("aes", None),
("avx", None),
("avx2", None),
("avx512bf16", Some(sym::avx512_target_feature)),
("avx512bitalg", Some(sym::avx512_target_feature)),
("avx512bw", Some(sym::avx512_target_feature)),
("avx512cd", Some(sym::avx512_target_feature)),
("avx512dq", Some(sym::avx512_target_feature)),
("avx512er", Some(sym::avx512_target_feature)),
("avx512f", Some(sym::avx512_target_feature)),
("avx512gfni", Some(sym::avx512_target_feature)),
("avx512ifma", Some(sym::avx512_target_feature)),
("avx512pf", Some(sym::avx512_target_feature)),
("avx512vaes", Some(sym::avx512_target_feature)),
("avx512vbmi", Some(sym::avx512_target_feature)),
("avx512vbmi2", Some(sym::avx512_target_feature)),
("avx512vl", Some(sym::avx512_target_feature)),
("avx512vnni", Some(sym::avx512_target_feature)),
("avx512vp2intersect", Some(sym::avx512_target_feature)),
("avx512vpclmulqdq", Some(sym::avx512_target_feature)),
("avx512vpopcntdq", Some(sym::avx512_target_feature)),
("bmi1", None),
("bmi2", None),
("cmpxchg16b", Some(sym::cmpxchg16b_target_feature)),
("ermsb", Some(sym::ermsb_target_feature)),
("f16c", Some(sym::f16c_target_feature)),
("fma", None),
("fxsr", None),
("lzcnt", None),
("movbe", Some(sym::movbe_target_feature)),
("pclmulqdq", None),
("popcnt", None),
("rdrand", None),
("rdseed", None),
("rtm", Some(sym::rtm_target_feature)),
("sha", None),
("sse", None),
("sse2", None),
("sse3", None),
("sse4.1", None),
("sse4.2", None),
("sse4a", Some(sym::sse4a_target_feature)),
("ssse3", None),
("tbm", Some(sym::tbm_target_feature)),
("xsave", None),
("xsavec", None),
("xsaveopt", None),
("xsaves", None),
];
const HEXAGON_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("hvx", Some(sym::hexagon_target_feature)),
("hvx-length128b", Some(sym::hexagon_target_feature)),
];
const POWERPC_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("altivec", Some(sym::powerpc_target_feature)),
("power8-altivec", Some(sym::powerpc_target_feature)),
("power9-altivec", Some(sym::powerpc_target_feature)),
("power8-vector", Some(sym::powerpc_target_feature)),
("power9-vector", Some(sym::powerpc_target_feature)),
("vsx", Some(sym::powerpc_target_feature)),
];
const MIPS_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] =
&[("fp64", Some(sym::mips_target_feature)), ("msa", Some(sym::mips_target_feature))];
const RISCV_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("m", Some(sym::riscv_target_feature)),
("a", Some(sym::riscv_target_feature)),
("c", Some(sym::riscv_target_feature)),
("f", Some(sym::riscv_target_feature)),
("d", Some(sym::riscv_target_feature)),
("e", Some(sym::riscv_target_feature)),
("v", Some(sym::riscv_target_feature)),
("zfinx", Some(sym::riscv_target_feature)),
("zdinx", Some(sym::riscv_target_feature)),
("zhinx", Some(sym::riscv_target_feature)),
("zhinxmin", Some(sym::riscv_target_feature)),
("zfh", Some(sym::riscv_target_feature)),
("zfhmin", Some(sym::riscv_target_feature)),
("zbkb", Some(sym::riscv_target_feature)),
("zbkc", Some(sym::riscv_target_feature)),
("zbkx", Some(sym::riscv_target_feature)),
("zknd", Some(sym::riscv_target_feature)),
("zkne", Some(sym::riscv_target_feature)),
("zknh", Some(sym::riscv_target_feature)),
("zksed", Some(sym::riscv_target_feature)),
("zksh", Some(sym::riscv_target_feature)),
("zkr", Some(sym::riscv_target_feature)),
("zkn", Some(sym::riscv_target_feature)),
("zks", Some(sym::riscv_target_feature)),
("zk", Some(sym::riscv_target_feature)),
("zkt", Some(sym::riscv_target_feature)),
];
const WASM_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[
("simd128", None),
("atomics", Some(sym::wasm_target_feature)),
("nontrapping-fptoint", Some(sym::wasm_target_feature)),
];
const BPF_ALLOWED_FEATURES: &[(&str, Option<Symbol>)] = &[("alu32", Some(sym::bpf_target_feature))];
/// When rustdoc is running, provide a list of all known features so that all their respective
/// primitives may be documented.
///
/// IMPORTANT: If you're adding another feature list above, make sure to add it to this iterator!
pub fn all_known_features() -> impl Iterator<Item = (&'static str, Option<Symbol>)> {
std::iter::empty()
.chain(ARM_ALLOWED_FEATURES.iter())
.chain(AARCH64_ALLOWED_FEATURES.iter())
.chain(X86_ALLOWED_FEATURES.iter())
.chain(HEXAGON_ALLOWED_FEATURES.iter())
.chain(POWERPC_ALLOWED_FEATURES.iter())
.chain(MIPS_ALLOWED_FEATURES.iter())
.chain(RISCV_ALLOWED_FEATURES.iter())
.chain(WASM_ALLOWED_FEATURES.iter())
.chain(BPF_ALLOWED_FEATURES.iter())
.cloned()
}
pub fn supported_target_features(sess: &Session) -> &'static [(&'static str, Option<Symbol>)] {
match &*sess.target.arch {
"arm" => ARM_ALLOWED_FEATURES,
"aarch64" => AARCH64_ALLOWED_FEATURES,
"x86" | "x86_64" => X86_ALLOWED_FEATURES,
"hexagon" => HEXAGON_ALLOWED_FEATURES,
"mips" | "mips64" => MIPS_ALLOWED_FEATURES,
"powerpc" | "powerpc64" => POWERPC_ALLOWED_FEATURES,
"riscv32" | "riscv64" => RISCV_ALLOWED_FEATURES,
"wasm32" | "wasm64" => WASM_ALLOWED_FEATURES,
"bpf" => BPF_ALLOWED_FEATURES,
_ => &[],
}
}
pub fn tied_target_features(sess: &Session) -> &'static [&'static [&'static str]] {
match &*sess.target.arch {
"aarch64" => AARCH64_TIED_FEATURES,
_ => &[],
}
}
pub(crate) fn provide(providers: &mut Providers) {
providers.supported_target_features = |tcx, cnum| {
assert_eq!(cnum, LOCAL_CRATE);
if tcx.sess.opts.actually_rustdoc {
// rustdoc needs to be able to document functions that use all the features, so
// whitelist them all
all_known_features().map(|(a, b)| (a.to_string(), b)).collect()
} else {
supported_target_features(tcx.sess).iter().map(|&(a, b)| (a.to_string(), b)).collect()
}
};
}
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