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Auto merge of #132514 - Zalathar:print-target-cpus, r=jieyouxu
Port most of `--print=target-cpus` to Rust The logic and formatting needed by `--print=target-cpus` has historically been carried out in C++ code. Originally it used `printf` to write directly to the console, but later it switched over to writing to a `std::ostringstream` and then passing its buffer to a callback function pointer. This PR replaces that C++ code with a very simple function that writes a list of CPU names to a `&RustString`, with the rest of the logic and formatting being handled by ordinary safe Rust code.
This commit is contained in:
commit
59ae5eba7e
@ -2190,12 +2190,8 @@ unsafe extern "C" {
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pub fn LLVMRustHasFeature(T: &TargetMachine, s: *const c_char) -> bool;
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pub fn LLVMRustPrintTargetCPUs(
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T: &TargetMachine,
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cpu: *const c_char,
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print: unsafe extern "C" fn(out: *mut c_void, string: *const c_char, len: usize),
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out: *mut c_void,
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);
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#[allow(improper_ctypes)]
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pub(crate) fn LLVMRustPrintTargetCPUs(TM: &TargetMachine, OutStr: &RustString);
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pub fn LLVMRustGetTargetFeaturesCount(T: &TargetMachine) -> size_t;
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pub fn LLVMRustGetTargetFeature(
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T: &TargetMachine,
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@ -2204,7 +2200,7 @@ unsafe extern "C" {
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Desc: &mut *const c_char,
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);
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pub fn LLVMRustGetHostCPUName(len: *mut usize) -> *const c_char;
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pub fn LLVMRustGetHostCPUName(LenOut: &mut size_t) -> *const u8;
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// This function makes copies of pointed to data, so the data's lifetime may end after this
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// function returns.
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@ -1,4 +1,5 @@
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use std::ffi::{CStr, CString, c_char, c_void};
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use std::collections::VecDeque;
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use std::ffi::{CStr, CString};
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use std::fmt::Write;
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use std::path::Path;
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use std::sync::Once;
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@ -387,7 +388,65 @@ fn llvm_target_features(tm: &llvm::TargetMachine) -> Vec<(&str, &str)> {
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ret
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}
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fn print_target_features(out: &mut String, sess: &Session, tm: &llvm::TargetMachine) {
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pub(crate) fn print(req: &PrintRequest, out: &mut String, sess: &Session) {
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require_inited();
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let tm = create_informational_target_machine(sess, false);
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match req.kind {
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PrintKind::TargetCPUs => print_target_cpus(sess, &tm, out),
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PrintKind::TargetFeatures => print_target_features(sess, &tm, out),
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_ => bug!("rustc_codegen_llvm can't handle print request: {:?}", req),
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}
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}
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fn print_target_cpus(sess: &Session, tm: &llvm::TargetMachine, out: &mut String) {
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let cpu_names = llvm::build_string(|s| unsafe {
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llvm::LLVMRustPrintTargetCPUs(&tm, s);
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})
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.unwrap();
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struct Cpu<'a> {
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cpu_name: &'a str,
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remark: String,
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}
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// Compare CPU against current target to label the default.
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let target_cpu = handle_native(&sess.target.cpu);
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let make_remark = |cpu_name| {
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if cpu_name == target_cpu {
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// FIXME(#132514): This prints the LLVM target string, which can be
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// different from the Rust target string. Is that intended?
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let target = &sess.target.llvm_target;
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format!(
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" - This is the default target CPU for the current build target (currently {target})."
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)
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} else {
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"".to_owned()
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}
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};
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let mut cpus = cpu_names
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.lines()
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.map(|cpu_name| Cpu { cpu_name, remark: make_remark(cpu_name) })
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.collect::<VecDeque<_>>();
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// Only print the "native" entry when host and target are the same arch,
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// since otherwise it could be wrong or misleading.
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if sess.host.arch == sess.target.arch {
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let host = get_host_cpu_name();
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cpus.push_front(Cpu {
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cpu_name: "native",
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remark: format!(" - Select the CPU of the current host (currently {host})."),
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});
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}
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let max_name_width = cpus.iter().map(|cpu| cpu.cpu_name.len()).max().unwrap_or(0);
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writeln!(out, "Available CPUs for this target:").unwrap();
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for Cpu { cpu_name, remark } in cpus {
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// Only pad the CPU name if there's a remark to print after it.
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let width = if remark.is_empty() { 0 } else { max_name_width };
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writeln!(out, " {cpu_name:<width$}{remark}").unwrap();
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}
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}
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fn print_target_features(sess: &Session, tm: &llvm::TargetMachine, out: &mut String) {
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let mut llvm_target_features = llvm_target_features(tm);
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let mut known_llvm_target_features = FxHashSet::<&'static str>::default();
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let mut rustc_target_features = sess
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@ -447,52 +506,31 @@ fn print_target_features(out: &mut String, sess: &Session, tm: &llvm::TargetMach
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writeln!(out, "and may be renamed or removed in a future version of LLVM or rustc.\n").unwrap();
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}
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pub(crate) fn print(req: &PrintRequest, mut out: &mut String, sess: &Session) {
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require_inited();
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let tm = create_informational_target_machine(sess, false);
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match req.kind {
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PrintKind::TargetCPUs => {
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// SAFETY generate a C compatible string from a byte slice to pass
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// the target CPU name into LLVM, the lifetime of the reference is
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// at least as long as the C function
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let cpu_cstring = CString::new(handle_native(sess.target.cpu.as_ref()))
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.unwrap_or_else(|e| bug!("failed to convert to cstring: {}", e));
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unsafe extern "C" fn callback(out: *mut c_void, string: *const c_char, len: usize) {
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let out = unsafe { &mut *(out as *mut &mut String) };
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let bytes = unsafe { slice::from_raw_parts(string as *const u8, len) };
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write!(out, "{}", String::from_utf8_lossy(bytes)).unwrap();
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}
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unsafe {
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llvm::LLVMRustPrintTargetCPUs(
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&tm,
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cpu_cstring.as_ptr(),
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callback,
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(&raw mut out) as *mut c_void,
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);
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}
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}
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PrintKind::TargetFeatures => print_target_features(out, sess, &tm),
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_ => bug!("rustc_codegen_llvm can't handle print request: {:?}", req),
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}
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}
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fn handle_native(name: &str) -> &str {
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if name != "native" {
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return name;
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}
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unsafe {
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/// Returns the host CPU name, according to LLVM.
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fn get_host_cpu_name() -> &'static str {
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let mut len = 0;
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// SAFETY: The underlying C++ global function returns a `StringRef` that
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// isn't tied to any particular backing buffer, so it must be 'static.
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let slice: &'static [u8] = unsafe {
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let ptr = llvm::LLVMRustGetHostCPUName(&mut len);
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str::from_utf8(slice::from_raw_parts(ptr as *const u8, len)).unwrap()
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assert!(!ptr.is_null());
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slice::from_raw_parts(ptr, len)
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};
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str::from_utf8(slice).expect("host CPU name should be UTF-8")
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}
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/// If the given string is `"native"`, returns the host CPU name according to
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/// LLVM. Otherwise, the string is returned as-is.
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fn handle_native(cpu_name: &str) -> &str {
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match cpu_name {
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"native" => get_host_cpu_name(),
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_ => cpu_name,
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}
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}
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pub(crate) fn target_cpu(sess: &Session) -> &str {
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match sess.opts.cg.target_cpu {
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Some(ref name) => handle_native(name),
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None => handle_native(sess.target.cpu.as_ref()),
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}
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let cpu_name = sess.opts.cg.target_cpu.as_deref().unwrap_or_else(|| &sess.target.cpu);
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handle_native(cpu_name)
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}
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/// The list of LLVM features computed from CLI flags (`-Ctarget-cpu`, `-Ctarget-feature`,
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@ -317,49 +317,17 @@ template <typename KV> static size_t getLongestEntryLength(ArrayRef<KV> Table) {
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return MaxLen;
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}
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using PrintBackendInfo = void(void *, const char *Data, size_t Len);
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extern "C" void LLVMRustPrintTargetCPUs(LLVMTargetMachineRef TM,
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const char *TargetCPU,
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PrintBackendInfo Print, void *Out) {
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const TargetMachine *Target = unwrap(TM);
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const Triple::ArchType HostArch =
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Triple(sys::getDefaultTargetTriple()).getArch();
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const Triple::ArchType TargetArch = Target->getTargetTriple().getArch();
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RustStringRef OutStr) {
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ArrayRef<SubtargetSubTypeKV> CPUTable =
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unwrap(TM)->getMCSubtargetInfo()->getAllProcessorDescriptions();
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auto OS = RawRustStringOstream(OutStr);
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std::ostringstream Buf;
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const MCSubtargetInfo *MCInfo = Target->getMCSubtargetInfo();
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const ArrayRef<SubtargetSubTypeKV> CPUTable =
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MCInfo->getAllProcessorDescriptions();
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unsigned MaxCPULen = getLongestEntryLength(CPUTable);
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Buf << "Available CPUs for this target:\n";
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// Don't print the "native" entry when the user specifies --target with a
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// different arch since that could be wrong or misleading.
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if (HostArch == TargetArch) {
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MaxCPULen = std::max(MaxCPULen, (unsigned)std::strlen("native"));
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const StringRef HostCPU = sys::getHostCPUName();
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Buf << " " << std::left << std::setw(MaxCPULen) << "native"
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<< " - Select the CPU of the current host "
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"(currently "
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<< HostCPU.str() << ").\n";
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}
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// Just print a bare list of target CPU names, and let Rust-side code handle
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// the full formatting of `--print=target-cpus`.
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for (auto &CPU : CPUTable) {
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// Compare cpu against current target to label the default
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if (strcmp(CPU.Key, TargetCPU) == 0) {
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Buf << " " << std::left << std::setw(MaxCPULen) << CPU.Key
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<< " - This is the default target CPU for the current build target "
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"(currently "
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<< Target->getTargetTriple().str() << ").";
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} else {
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Buf << " " << CPU.Key;
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OS << CPU.Key << "\n";
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}
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Buf << "\n";
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}
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const auto &BufString = Buf.str();
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Print(Out, BufString.data(), BufString.size());
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}
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extern "C" size_t LLVMRustGetTargetFeaturesCount(LLVMTargetMachineRef TM) {
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@ -382,9 +350,9 @@ extern "C" void LLVMRustGetTargetFeature(LLVMTargetMachineRef TM, size_t Index,
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*Desc = Feat.Desc;
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}
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extern "C" const char *LLVMRustGetHostCPUName(size_t *len) {
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extern "C" const char *LLVMRustGetHostCPUName(size_t *OutLen) {
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StringRef Name = sys::getHostCPUName();
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*len = Name.size();
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*OutLen = Name.size();
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return Name.data();
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}
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39
tests/run-make/print-target-cpus-native/rmake.rs
Normal file
39
tests/run-make/print-target-cpus-native/rmake.rs
Normal file
@ -0,0 +1,39 @@
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//@ ignore-cross-compile
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//@ needs-llvm-components: aarch64 x86
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// FIXME(#132514): Is needs-llvm-components actually necessary for this test?
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use run_make_support::{assert_contains_regex, rfs, rustc, target};
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// Test that when querying `--print=target-cpus` for a target with the same
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// architecture as the host, the first CPU is "native" with a suitable remark.
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fn main() {
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let expected = r"^Available CPUs for this target:
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native +- Select the CPU of the current host \(currently [^ )]+\)\.
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";
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// Without an explicit target.
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rustc().print("target-cpus").run().assert_stdout_contains_regex(expected);
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// With an explicit target that happens to be the host.
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let host = target(); // Because of ignore-cross-compile, assume host == target.
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rustc().print("target-cpus").target(host).run().assert_stdout_contains_regex(expected);
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// With an explicit output path.
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rustc().print("target-cpus=./xyzzy.txt").run().assert_stdout_equals("");
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assert_contains_regex(rfs::read_to_string("./xyzzy.txt"), expected);
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// Now try some cross-target queries with the same arch as the host.
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// (Specify multiple targets so that at least one of them is not the host.)
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let cross_targets: &[&str] = if cfg!(target_arch = "aarch64") {
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&["aarch64-unknown-linux-gnu", "aarch64-apple-darwin"]
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} else if cfg!(target_arch = "x86_64") {
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&["x86_64-unknown-linux-gnu", "x86_64-apple-darwin"]
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} else {
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&[]
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};
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for target in cross_targets {
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println!("Trying target: {target}");
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rustc().print("target-cpus").target(target).run().assert_stdout_contains_regex(expected);
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}
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}
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