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0eba65f031
LLVM 19 is dropping support for 3DNow! in commit f0eb5587ceeb ("Remove
support for 3DNow!, both intrinsics and builtins. (#96246)"):
Remove support for 3DNow!, both intrinsics and builtins. (#96246)
This set of instructions was only supported by AMD chips starting in
the K6-2 (introduced 1998), and before the "Bulldozer" family
(2011). They were never much used, as they were effectively superseded
by the more-widely-implemented SSE (first implemented on the AMD side
in Athlon XP in 2001).
This is being done as a predecessor towards general removal of MMX
register usage. Since there is almost no usage of the 3DNow!
intrinsics, and no modern hardware even implements them, simple
removal seems like the best option.
Thus we should avoid passing these to the backend, since otherwise we
get a diagnostic about it:
'-3dnow' is not a recognized feature for this target (ignoring feature)
'-3dnowa' is not a recognized feature for this target (ignoring feature)
We could try to disable them only up to LLVM 19 (not the C side one,
but the one used by `rustc`, which may be built with a range of
LLVMs). However, to avoid more complexity, we can likely just remove
them altogether. According to Nikita [2]:
> I don't think it's needed because LLVM should not generate 3dnow
> instructions unless specifically asked to, using intrinsics that
> Rust does not provide in the first place.
Thus do so, like Rust did for one of their builtin targets [3].
For those curious: Clang will warn only about trying to enable them
(`-m3dnow{,a}`), but not about disabling them (`-mno-3dnow{,a}`), so
there is no change needed there.
Cc: Nikita Popov <github@npopov.com>
Cc: Nathan Chancellor <nathan@kernel.org>
Cc: x86@kernel.org
Link: f0eb5587ce
[1]
Link: https://github.com/rust-lang/rust/pull/127864#issuecomment-2235898760 [2]
Link: https://github.com/rust-lang/rust/pull/127864 [3]
Closes: https://github.com/Rust-for-Linux/linux/issues/1094
Tested-by: Benno Lossin <benno.lossin@proton.me>
Tested-by: Alice Ryhl <aliceryhl@google.com>
Link: https://lore.kernel.org/r/20240806144558.114461-1-ojeda@kernel.org
Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
210 lines
6.4 KiB
Rust
210 lines
6.4 KiB
Rust
// SPDX-License-Identifier: GPL-2.0
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//! The custom target specification file generator for `rustc`.
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//!
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//! To configure a target from scratch, a JSON-encoded file has to be passed
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//! to `rustc` (introduced in [RFC 131]). These options and the file itself are
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//! unstable. Eventually, `rustc` should provide a way to do this in a stable
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//! manner. For instance, via command-line arguments. Therefore, this file
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//! should avoid using keys which can be set via `-C` or `-Z` options.
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//!
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//! [RFC 131]: https://rust-lang.github.io/rfcs/0131-target-specification.html
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use std::{
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collections::HashMap,
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fmt::{Display, Formatter, Result},
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io::BufRead,
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};
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enum Value {
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Boolean(bool),
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Number(i32),
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String(String),
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Object(Object),
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}
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type Object = Vec<(String, Value)>;
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/// Minimal "almost JSON" generator (e.g. no `null`s, no arrays, no escaping),
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/// enough for this purpose.
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impl Display for Value {
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fn fmt(&self, formatter: &mut Formatter<'_>) -> Result {
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match self {
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Value::Boolean(boolean) => write!(formatter, "{}", boolean),
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Value::Number(number) => write!(formatter, "{}", number),
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Value::String(string) => write!(formatter, "\"{}\"", string),
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Value::Object(object) => {
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formatter.write_str("{")?;
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if let [ref rest @ .., ref last] = object[..] {
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for (key, value) in rest {
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write!(formatter, "\"{}\": {},", key, value)?;
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}
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write!(formatter, "\"{}\": {}", last.0, last.1)?;
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}
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formatter.write_str("}")
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}
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}
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}
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}
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struct TargetSpec(Object);
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impl TargetSpec {
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fn new() -> TargetSpec {
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TargetSpec(Vec::new())
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}
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}
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trait Push<T> {
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fn push(&mut self, key: &str, value: T);
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}
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impl Push<bool> for TargetSpec {
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fn push(&mut self, key: &str, value: bool) {
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self.0.push((key.to_string(), Value::Boolean(value)));
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}
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}
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impl Push<i32> for TargetSpec {
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fn push(&mut self, key: &str, value: i32) {
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self.0.push((key.to_string(), Value::Number(value)));
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}
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}
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impl Push<String> for TargetSpec {
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fn push(&mut self, key: &str, value: String) {
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self.0.push((key.to_string(), Value::String(value)));
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}
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}
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impl Push<&str> for TargetSpec {
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fn push(&mut self, key: &str, value: &str) {
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self.push(key, value.to_string());
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}
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}
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impl Push<Object> for TargetSpec {
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fn push(&mut self, key: &str, value: Object) {
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self.0.push((key.to_string(), Value::Object(value)));
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}
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}
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impl Display for TargetSpec {
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fn fmt(&self, formatter: &mut Formatter<'_>) -> Result {
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// We add some newlines for clarity.
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formatter.write_str("{\n")?;
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if let [ref rest @ .., ref last] = self.0[..] {
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for (key, value) in rest {
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write!(formatter, " \"{}\": {},\n", key, value)?;
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}
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write!(formatter, " \"{}\": {}\n", last.0, last.1)?;
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}
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formatter.write_str("}")
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}
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}
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struct KernelConfig(HashMap<String, String>);
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impl KernelConfig {
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/// Parses `include/config/auto.conf` from `stdin`.
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fn from_stdin() -> KernelConfig {
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let mut result = HashMap::new();
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let stdin = std::io::stdin();
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let mut handle = stdin.lock();
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let mut line = String::new();
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loop {
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line.clear();
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if handle.read_line(&mut line).unwrap() == 0 {
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break;
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}
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if line.starts_with('#') {
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continue;
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}
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let (key, value) = line.split_once('=').expect("Missing `=` in line.");
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result.insert(key.to_string(), value.trim_end_matches('\n').to_string());
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}
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KernelConfig(result)
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}
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/// Does the option exist in the configuration (any value)?
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///
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/// The argument must be passed without the `CONFIG_` prefix.
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/// This avoids repetition and it also avoids `fixdep` making us
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/// depend on it.
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fn has(&self, option: &str) -> bool {
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let option = "CONFIG_".to_owned() + option;
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self.0.contains_key(&option)
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}
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}
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fn main() {
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let cfg = KernelConfig::from_stdin();
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let mut ts = TargetSpec::new();
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// `llvm-target`s are taken from `scripts/Makefile.clang`.
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if cfg.has("ARM64") {
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panic!("arm64 uses the builtin rustc aarch64-unknown-none target");
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} else if cfg.has("RISCV") {
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if cfg.has("64BIT") {
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panic!("64-bit RISC-V uses the builtin rustc riscv64-unknown-none-elf target");
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} else {
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panic!("32-bit RISC-V is an unsupported architecture");
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}
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} else if cfg.has("X86_64") {
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ts.push("arch", "x86_64");
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ts.push(
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"data-layout",
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"e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-i128:128-f80:128-n8:16:32:64-S128",
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);
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let mut features = "-mmx,+soft-float".to_string();
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if cfg.has("MITIGATION_RETPOLINE") {
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features += ",+retpoline-external-thunk";
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}
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ts.push("features", features);
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ts.push("llvm-target", "x86_64-linux-gnu");
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ts.push("target-pointer-width", "64");
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} else if cfg.has("X86_32") {
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// This only works on UML, as i386 otherwise needs regparm support in rustc
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if !cfg.has("UML") {
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panic!("32-bit x86 only works under UML");
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}
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ts.push("arch", "x86");
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ts.push(
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"data-layout",
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"e-m:e-p:32:32-p270:32:32-p271:32:32-p272:64:64-i128:128-f64:32:64-f80:32-n8:16:32-S128",
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);
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let mut features = "-mmx,+soft-float".to_string();
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if cfg.has("MITIGATION_RETPOLINE") {
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features += ",+retpoline-external-thunk";
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}
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ts.push("features", features);
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ts.push("llvm-target", "i386-unknown-linux-gnu");
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ts.push("target-pointer-width", "32");
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} else if cfg.has("LOONGARCH") {
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panic!("loongarch uses the builtin rustc loongarch64-unknown-none-softfloat target");
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} else {
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panic!("Unsupported architecture");
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}
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ts.push("emit-debug-gdb-scripts", false);
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ts.push("frame-pointer", "may-omit");
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ts.push(
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"stack-probes",
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vec![("kind".to_string(), Value::String("none".to_string()))],
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);
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// Everything else is LE, whether `CPU_LITTLE_ENDIAN` is declared or not
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// (e.g. x86). It is also `rustc`'s default.
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if cfg.has("CPU_BIG_ENDIAN") {
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ts.push("target-endian", "big");
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}
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println!("{}", ts);
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}
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