use std::env; fn main() { println!("cargo:rerun-if-changed=build.rs"); let target_arch = env::var("CARGO_CFG_TARGET_ARCH").expect("CARGO_CFG_TARGET_ARCH was not set"); let target_os = env::var("CARGO_CFG_TARGET_OS").expect("CARGO_CFG_TARGET_OS was not set"); let target_vendor = env::var("CARGO_CFG_TARGET_VENDOR").expect("CARGO_CFG_TARGET_VENDOR was not set"); let target_env = env::var("CARGO_CFG_TARGET_ENV").expect("CARGO_CFG_TARGET_ENV was not set"); let target_abi = env::var("CARGO_CFG_TARGET_ABI").expect("CARGO_CFG_TARGET_ABI was not set"); let target_pointer_width: u32 = env::var("CARGO_CFG_TARGET_POINTER_WIDTH") .expect("CARGO_CFG_TARGET_POINTER_WIDTH was not set") .parse() .unwrap(); let is_miri = env::var_os("CARGO_CFG_MIRI").is_some(); println!("cargo:rustc-check-cfg=cfg(netbsd10)"); if target_os == "netbsd" && env::var("RUSTC_STD_NETBSD10").is_ok() { println!("cargo:rustc-cfg=netbsd10"); } println!("cargo:rustc-check-cfg=cfg(restricted_std)"); if target_os == "linux" || target_os == "android" || target_os == "netbsd" || target_os == "dragonfly" || target_os == "openbsd" || target_os == "freebsd" || target_os == "solaris" || target_os == "illumos" || target_os == "macos" || target_os == "ios" || target_os == "tvos" || target_os == "watchos" || target_os == "visionos" || target_os == "windows" || target_os == "fuchsia" || (target_vendor == "fortanix" && target_env == "sgx") || target_os == "hermit" || target_os == "l4re" || target_os == "redox" || target_os == "haiku" || target_os == "vxworks" || target_arch == "wasm32" || target_arch == "wasm64" || target_os == "espidf" || target_os.starts_with("solid") || (target_vendor == "nintendo" && target_env == "newlib") || target_os == "vita" || target_os == "aix" || target_os == "nto" || target_os == "xous" || target_os == "hurd" || target_os == "uefi" || target_os == "teeos" || target_os == "zkvm" || target_os == "rtems" || target_os == "nuttx" // See src/bootstrap/src/core/build_steps/synthetic_targets.rs || env::var("RUSTC_BOOTSTRAP_SYNTHETIC_TARGET").is_ok() { // These platforms don't have any special requirements. } else { // This is for Cargo's build-std support, to mark std as unstable for // typically no_std platforms. // This covers: // - os=none ("bare metal" targets) // - mipsel-sony-psp // - nvptx64-nvidia-cuda // - arch=avr // - JSON targets // - Any new targets that have not been explicitly added above. println!("cargo:rustc-cfg=restricted_std"); } println!("cargo:rustc-check-cfg=cfg(backtrace_in_libstd)"); println!("cargo:rustc-cfg=backtrace_in_libstd"); println!("cargo:rustc-env=STD_ENV_ARCH={}", env::var("CARGO_CFG_TARGET_ARCH").unwrap()); // Emit these on platforms that have no known ABI bugs, LLVM selection bugs, lowering bugs, // missing symbols, or other problems, to determine when tests get run. // If more broken platforms are found, please update the tracking issue at // // // Some of these match arms are redundant; the goal is to separate reasons that the type is // unreliable, even when multiple reasons might fail the same platform. println!("cargo:rustc-check-cfg=cfg(reliable_f16)"); println!("cargo:rustc-check-cfg=cfg(reliable_f128)"); // This is a step beyond only having the types and basic functions available. Math functions // aren't consistently available or correct. println!("cargo:rustc-check-cfg=cfg(reliable_f16_math)"); println!("cargo:rustc-check-cfg=cfg(reliable_f128_math)"); let has_reliable_f16 = match (target_arch.as_str(), target_os.as_str()) { // We can always enable these in Miri as that is not affected by codegen bugs. _ if is_miri => true, // Selection failure ("s390x", _) => false, // Unsupported ("arm64ec", _) => false, // MinGW ABI bugs ("x86_64", "windows") if target_env == "gnu" && target_abi != "llvm" => false, // Infinite recursion ("csky", _) => false, ("hexagon", _) => false, ("loongarch64", _) => false, ("mips" | "mips64" | "mips32r6" | "mips64r6", _) => false, ("powerpc" | "powerpc64", _) => false, ("sparc" | "sparc64", _) => false, ("wasm32" | "wasm64", _) => false, // `f16` support only requires that symbols converting to and from `f32` are available. We // provide these in `compiler-builtins`, so `f16` should be available on all platforms that // do not have other ABI issues or LLVM crashes. _ => true, }; let has_reliable_f128 = match (target_arch.as_str(), target_os.as_str()) { // We can always enable these in Miri as that is not affected by codegen bugs. _ if is_miri => true, // Unsupported ("arm64ec", _) => false, // ABI and precision bugs // ("powerpc" | "powerpc64", _) => false, // Selection bug ("nvptx64", _) => false, // ABI unsupported ("sparc", _) => false, // MinGW ABI bugs ("x86_64", "windows") if target_env == "gnu" && target_abi != "llvm" => false, // 64-bit Linux is about the only platform to have f128 symbols by default (_, "linux") if target_pointer_width == 64 => true, // Almost all OSs are missing symbol. compiler-builtins will have to add them. _ => false, }; // Configure platforms that have reliable basics but may have unreliable math. // LLVM is currently adding missing routines, let has_reliable_f16_math = has_reliable_f16 && match (target_arch.as_str(), target_os.as_str()) { // FIXME: Disabled on Miri as the intrinsics are not implemented yet. _ if is_miri => false, // x86 has a crash for `powi`: ("x86" | "x86_64", _) => false, // Assume that working `f16` means working `f16` math for most platforms, since // operations just go through `f32`. _ => true, }; let has_reliable_f128_math = has_reliable_f128 && match (target_arch.as_str(), target_os.as_str()) { // FIXME: Disabled on Miri as the intrinsics are not implemented yet. _ if is_miri => false, // LLVM lowers `fp128` math to `long double` symbols even on platforms where // `long double` is not IEEE binary128. See // . // // This rules out anything that doesn't have `long double` = `binary128`; <= 32 bits // (ld is `f64`), anything other than Linux (Windows and MacOS use `f64`), and `x86` // (ld is 80-bit extended precision). ("x86_64", _) => false, (_, "linux") if target_pointer_width == 64 => true, _ => false, }; if has_reliable_f16 { println!("cargo:rustc-cfg=reliable_f16"); } if has_reliable_f128 { println!("cargo:rustc-cfg=reliable_f128"); } if has_reliable_f16_math { println!("cargo:rustc-cfg=reliable_f16_math"); } if has_reliable_f128_math { println!("cargo:rustc-cfg=reliable_f128_math"); } }