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2016-12-29Remove not(stage0) from deny(warnings)Alex Crichton-1/+1
Historically this was done to accommodate bugs in lints, but there hasn't been a bug in a lint since this feature was added which the warnings affected. Let's completely purge warnings from all our stages by denying warnings in all stages. This will also assist in tracking down `stage0` code to be removed whenever we're updating the bootstrap compiler.
2016-12-29Rollup merge of #38559 - japaric:ptx2, r=alexcrichtonAlex Crichton-1/+7
PTX support, take 2 - You can generate PTX using `--emit=asm` and the right (custom) target. Which then you can run on a NVIDIA GPU. - You can compile `core` to PTX. [Xargo] also works and it can compile some other crates like `collections` (but I doubt all of those make sense on a GPU) [Xargo]: https://github.com/japaric/xargo - You can create "global" functions, which can be "called" by the host, using the `"ptx-kernel"` ABI, e.g. `extern "ptx-kernel" fn kernel() { .. }`. Every other function is a "device" function and can only be called by the GPU. - Intrinsics like `__syncthreads()` and `blockIdx.x` are available as `"platform-intrinsics"`. These intrinsics are *not* in the `core` crate but any Rust user can create "bindings" to them using an `extern "platform-intrinsics"` block. See example at the end. - Trying to emit PTX with `-g` (debuginfo); you get an LLVM error. But I don't think PTX can contain debuginfo anyway so `-g` should be ignored and a warning should be printed ("`-g` doesn't work with this target" or something). - "Single source" support. You *can't* write a single source file that contains both host and device code. I think that should be possible to implement that outside the compiler using compiler plugins / build scripts. - The equivalent to CUDA `__shared__` which it's used to declare memory that's shared between the threads of the same block. This could be implemented using attributes: `#[shared] static mut SCRATCH_MEMORY: [f32; 64]` but hasn't been implemented yet. - Built-in targets. This PR doesn't add targets to the compiler just yet but one can create custom targets to be able to emit PTX code (see the example at the end). The idea is to have people experiment with this feature before committing to it (built-in targets are "insta-stable") - All functions must be "inlined". IOW, the `.rlib` must always contain the LLVM bitcode of all the functions of the crate it was produced from. Otherwise, you end with "undefined references" in the final PTX code but you won't get *any* linker error because no linker is involved. IOW, you'll hit a runtime error when loading the PTX into the GPU. The workaround is to use `#[inline]` on non-generic functions and to never use `#[inline(never)]` but this may not always be possible because e.g. you could be relying on third party code. - Should `--emit=asm` generate a `.ptx` file instead of a `.s` file? TL;DR Use Xargo to turn a crate into a PTX module (a `.s` file). Then pass that PTX module, as a string, to the GPU and run it. The full code is in [this repository]. This section gives an overview of how to run Rust code on a NVIDIA GPU. [this repository]: https://github.com/japaric/cuda - Create a custom target. Here's the 64-bit NVPTX target (NOTE: the comments are not valid because this is supposed to be a JSON file; remove them before you use this file): ``` js // nvptx64-nvidia-cuda.json { "arch": "nvptx64", // matches LLVM "cpu": "sm_20", // "oldest" compute capability supported by LLVM "data-layout": "e-i64:64-v16:16-v32:32-n16:32:64", "llvm-target": "nvptx64-nvidia-cuda", "max-atomic-width": 0, // LLVM errors with any other value :-( "os": "cuda", // matches LLVM "panic-strategy": "abort", "target-endian": "little", "target-pointer-width": "64", "target-vendor": "nvidia", // matches LLVM -- not required } ``` (There's a 32-bit target specification in the linked repository) - Write a kernel ``` rust extern "platform-intrinsic" { fn nvptx_block_dim_x() -> i32; fn nvptx_block_idx_x() -> i32; fn nvptx_thread_idx_x() -> i32; } /// Copies an array of `n` floating point numbers from `src` to `dst` pub unsafe extern "ptx-kernel" fn memcpy(dst: *mut f32, src: *const f32, n: usize) { let i = (nvptx_block_dim_x() as isize) .wrapping_mul(nvptx_block_idx_x() as isize) .wrapping_add(nvptx_thread_idx_x() as isize); if (i as usize) < n { *dst.offset(i) = *src.offset(i); } } ``` - Emit PTX code ``` $ xargo rustc --target nvptx64-nvidia-cuda --release -- --emit=asm Compiling core v0.0.0 (file://..) (..) Compiling nvptx-builtins v0.1.0 (https://github.com/japaric/nvptx-builtins) Compiling kernel v0.1.0 $ cat target/nvptx64-nvidia-cuda/release/deps/kernel-*.s // // Generated by LLVM NVPTX Back-End // .version 3.2 .target sm_20 .address_size 64 // .globl memcpy .visible .entry memcpy( .param .u64 memcpy_param_0, .param .u64 memcpy_param_1, .param .u64 memcpy_param_2 ) { .reg .pred %p<2>; .reg .s32 %r<5>; .reg .s64 %rd<12>; ld.param.u64 %rd7, [memcpy_param_2]; mov.u32 %r1, %ntid.x; mov.u32 %r2, %ctaid.x; mul.wide.s32 %rd8, %r2, %r1; mov.u32 %r3, %tid.x; cvt.s64.s32 %rd9, %r3; add.s64 %rd10, %rd9, %rd8; setp.ge.u64 %p1, %rd10, %rd7; @%p1 bra LBB0_2; ld.param.u64 %rd3, [memcpy_param_0]; ld.param.u64 %rd4, [memcpy_param_1]; cvta.to.global.u64 %rd5, %rd4; cvta.to.global.u64 %rd6, %rd3; shl.b64 %rd11, %rd10, 2; add.s64 %rd1, %rd6, %rd11; add.s64 %rd2, %rd5, %rd11; ld.global.u32 %r4, [%rd2]; st.global.u32 [%rd1], %r4; LBB0_2: ret; } ``` - Run it on the GPU ``` rust // `kernel.ptx` is the `*.s` file we got in the previous step const KERNEL: &'static str = include_str!("kernel.ptx"); driver::initialize()?; let device = Device(0)?; let ctx = device.create_context()?; let module = ctx.load_module(KERNEL)?; let kernel = module.function("memcpy")?; let h_a: Vec<f32> = /* create some random data */; let h_b = vec![0.; N]; let d_a = driver::allocate(bytes)?; let d_b = driver::allocate(bytes)?; // Copy from host to GPU driver::copy(h_a, d_a)?; // Run `memcpy` on the GPU kernel.launch(d_b, d_a, N)?; // Copy from GPU to host driver::copy(d_b, h_b)?; // Verify assert_eq!(h_a, h_b); // `d_a`, `d_b`, `h_a`, `h_b` are dropped/freed here ``` --- cc @alexcrichton @brson @rkruppe > What has changed since #34195? - `core` now can be compiled into PTX. Which makes it very easy to turn `no_std` crates into "kernels" with the help of Xargo. - There's now a way, the `"ptx-kernel"` ABI, to generate "global" functions. The old PR required a manual step (it was hack) to "convert" "device" functions into "global" functions. (Only "global" functions can be launched by the host) - Everything is unstable. There are not "insta stable" built-in targets this time (\*). The users have to use a custom target to experiment with this feature. Also, PTX instrinsics, like `__syncthreads` and `blockIdx.x`, are now implemented as `"platform-intrinsics"` so they no longer live in the `core` crate. (\*) I'd actually like to have in-tree targets because that makes this target more discoverable, removes the need to lug around .json files, etc. However, bundling a target with the compiler immediately puts it in the path towards stabilization. Which gives us just two cycles to find and fix any problem with the target specification. Afterwards, it becomes hard to tweak the specification because that could be a breaking change. A possible solution could be "unstable built-in targets". Basically, to use an unstable target, you'll have to also pass `-Z unstable-options` to the compiler. And unstable targets, being unstable, wouldn't be available on stable. > Why should this be merged? - To let people experiment with the feature out of tree. Having easy access to the feature (in every nightly) allows this. I also think that, as it is, it should be possible to start prototyping type-safe single source support using build scripts, macros and/or plugins. - It's a straightforward implementation. No different that adding support for any other architecture.
2016-12-29Fallout from updating bootstrap CargoAlex Crichton-5/+2
2016-12-26PTX supportJorge Aparicio-1/+7
- `--emit=asm --target=nvptx64-nvidia-cuda` can be used to turn a crate into a PTX module (a `.s` file). - intrinsics like `__syncthreads` and `blockIdx.x` are exposed as `"platform-intrinsics"`. - "cabi" has been implemented for the nvptx and nvptx64 architectures. i.e. `extern "C"` works. - a new ABI, `"ptx-kernel"`. That can be used to generate "global" functions. Example: `extern "ptx-kernel" fn kernel() { .. }`. All other functions are "device" functions.
2016-12-26Auto merge of #38314 - japaric:do-not-delete-enable-llvm-backend, r=alexcrichtonbors-1/+8
initial SPARC support ### UPDATE Can now compile `no_std` executables with: ``` $ cargo new --bin app && cd $_ $ edit Cargo.toml && tail -n2 $_ [dependencies] core = { path = "/path/to/rust/src/libcore" } $ edit src/main.rs && cat $_ #![feature(lang_items)] #![no_std] #![no_main] #[no_mangle] pub fn _start() -> ! { loop {} } #[lang = "panic_fmt"] fn panic_fmt() -> ! { loop {} } $ edit sparc-none-elf.json && cat $_ { "arch": "sparc", "data-layout": "E-m:e-p:32:32-i64:64-f128:64-n32-S64", "executables": true, "llvm-target": "sparc", "os": "none", "panic-strategy": "abort", "target-endian": "big", "target-pointer-width": "32" } $ cargo rustc --target sparc-none-elf -- -C linker=sparc-unknown-elf-gcc -C link-args=-nostartfiles $ file target/sparc-none-elf/debug/app app: ELF 32-bit MSB executable, SPARC, version 1 (SYSV), statically linked, not stripped $ sparc-unknown-elf-readelf -h target/sparc-none-elf/debug/app ELF Header: Magic: 7f 45 4c 46 01 02 01 00 00 00 00 00 00 00 00 00 Class: ELF32 Data: 2's complement, big endian Version: 1 (current) OS/ABI: UNIX - System V ABI Version: 0 Type: EXEC (Executable file) Machine: Sparc Version: 0x1 Entry point address: 0x10074 Start of program headers: 52 (bytes into file) Start of section headers: 1188 (bytes into file) Flags: 0x0 Size of this header: 52 (bytes) Size of program headers: 32 (bytes) Number of program headers: 2 Size of section headers: 40 (bytes) Number of section headers: 14 Section header string table index: 11 $ sparc-unknown-elf-objdump -Cd target/sparc-none-elf/debug/app target/sparc-none-elf/debug/app: file format elf32-sparc Disassembly of section .text: 00010074 <_start>: 10074: 9d e3 bf 98 save %sp, -104, %sp 10078: 10 80 00 02 b 10080 <_start+0xc> 1007c: 01 00 00 00 nop 10080: 10 80 00 02 b 10088 <_start+0x14> 10084: 01 00 00 00 nop 10088: 10 80 00 00 b 10088 <_start+0x14> 1008c: 01 00 00 00 nop ``` --- Someone wants to attempt launching some Rust [into space](https://www.reddit.com/r/rust/comments/5h76oa/c_interop/) but their platform is based on the SPARCv8 architecture. Let's not block them by enabling LLVM's SPARC backend. Something very important that they'll also need is the "cabi" stuff as they'll be embedding some Rust code into a bigger C application (i.e. heavy use of `extern "C"`). The question there is what name(s) should we use for "target_arch" as the "cabi" implementation [varies according to that parameter](https://github.com/rust-lang/rust/blob/1.13.0/src/librustc_trans/abi.rs#L498-L523). AFAICT, SPARCv8 is a 32-bit architecture and SPARCv9 is a 64-bit architecture. And, LLVM uses `sparc`, `sparcv9` and `sparcel` for [the architecture triple](https://github.com/rust-lang/llvm/blob/ac1c94226e9fa17005ce7e2dd52dd6d1875f3137/include/llvm/ADT/Triple.h#L67-L69) so perhaps we should use `target_arch = "sparc"` (32-bit) and `target_arch = "sparcv9"` (64-bit) as well. r? @alexcrichton This PR only enables this LLVM backend when rustbuild is used. Do I also need to implement this for the old Makefile-based build system? Or are all our nightlies now being generated using rustbuild? cc @brson
2016-12-26Auto merge of #38542 - YaLTeR:fastcall-fix, r=pnkfelixbors-0/+1
Fix fastcall not applying inreg attributes to arguments Fixes https://github.com/rust-lang/rust/issues/18086
2016-12-21Make drop glue for unsized value pass two arguments instead of *(data, meta)Mark Simulacrum-1/+2
2016-12-21Fixed fastcall not applying inreg attributes to arguments like the C/C++ ↵Ivan Molodetskikh-0/+1
fastcall.
2016-12-20Remove FunctionContext::cleanup, replacing it with a Drop impl.Mark-Simulacrum-0/+1
Move alloca and initial entry block creation into FunctionContext::new.
2016-12-19fix tidyJorge Aparicio-1/+2
2016-12-19enable LLVM's SPARC backendJorge Aparicio-1/+7
2016-12-18OpenBSD has two stdc++ libraries: use the newerSébastien Marie-2/+9
stdc++ is from base, and is an old library (GCC 4.2) estdc++ is from ports, and is a recent library (GCC 4.9 currently) as LLVM requires the newer version, use it if under OpenBSD.
2016-12-12[LLVM 4.0] Move debuginfo alignment argumentJake Goulding-2/+4
Alignment was removed from createBasicType and moved to - createGlobalVariable - createAutoVariable - createStaticMemberType (unused in Rust) - createTempGlobalVariableFwdDecl (unused in Rust) https://github.com/llvm-mirror/llvm/commit/e69c459a6e9756ca1ff3acb1dcfc434843aee80f
2016-12-06Auto merge of #37973 - vadimcn:dllimport, r=alexcrichtonbors-6/+4
Implement RFC 1717 Implement the first two points from #37403. r? @alexcrichton
2016-12-05Make LLVM symbol visibility FFI types more stable.Michael Woerister-8/+11
2016-12-04Auto merge of #37857 - shepmaster:llvm-4.0-dinodes, r=michaelwoeristerbors-25/+58
[LLVM 4.0] Handle new DIFlags enum
2016-12-03Auto merge of #38079 - BurntSushi:attrtarget, r=alexcrichtonbors-4/+4
Add new #[target_feature = "..."] attribute. This commit adds a new attribute that instructs the compiler to emit target specific code for a single function. For example, the following function is permitted to use instructions that are part of SSE 4.2: #[target_feature = "+sse4.2"] fn foo() { ... } In particular, use of this attribute does not require setting the -C target-feature or -C target-cpu options on rustc. This attribute does not have any protections built into it. For example, nothing stops one from calling the above `foo` function on hosts without SSE 4.2 support. Doing so may result in a SIGILL. I've also expanded the x86 target feature whitelist.
2016-12-03Auto merge of #38055 - rkruppe:rm-unused-llvm-ffi, r=alexcrichtonbors-229/+1
Remove unused functions from rustc_llvm
2016-12-02[LLVM] Introduce a stable representation of DIFlagsJake Goulding-25/+58
In LLVM 4.0, this enum becomes an actual type-safe enum, which breaks all of the interfaces. Introduce our own copy of the bitflags that we can then safely convert to the LLVM one.
2016-12-01Remove the "linked_from" feature.Vadim Chugunov-6/+4
2016-12-01Auto merge of #38048 - rkruppe:llvm-stringref-fixes, r=alexcrichtonbors-11/+13
[LLVM 4.0] Don't assume llvm::StringRef is null terminated StringRefs have a length and their contents are not usually null-terminated. The solution is to either copy the string data (in `rustc_llvm::diagnostic`) or take the size into account (in LLVMRustPrintPasses). I couldn't trigger a bug caused by this (apparently all the strings returned in practice are actually null-terminated) but this is more correct and more future-proof. cc #37609
2016-11-30Update the bootstrap compilerAlex Crichton-2/+2
Now that we've got a beta build, let's use it!
2016-11-29Add new #[target_feature = "..."] attribute.Andrew Gallant-4/+4
This commit adds a new attribute that instructs the compiler to emit target specific code for a single function. For example, the following function is permitted to use instructions that are part of SSE 4.2: #[target_feature = "+sse4.2"] fn foo() { ... } In particular, use of this attribute does not require setting the -C target-feature or -C target-cpu options on rustc. This attribute does not have any protections built into it. For example, nothing stops one from calling the above `foo` function on hosts without SSE 4.2 support. Doing so may result in a SIGILL. This commit also expands the target feature whitelist to include lzcnt, popcnt and sse4a. Namely, lzcnt and popcnt have their own CPUID bits, but were introduced with SSE4.
2016-11-28Remove unused functions from rustc_llvmRobin Kruppe-229/+1
2016-11-28Don't assume llvm::StringRef is null terminatedRobin Kruppe-11/+13
StringRefs have a length and their contents are not usually null-terminated. The solution is to either copy the string data (in rustc_llvm::diagnostic) or take the size into account (in LLVMRustPrintPasses). I couldn't trigger a bug caused by this (apparently all the strings returned in practice are actually null-terminated) but this is more correct and more future-proof.
2016-11-24Support LLVM 4.0 in OptimizationDiagnostic FFIRobin Kruppe-17/+20
- getMsg() changed to return std::string by-value. Fix: copy the data to a rust String during unpacking. - getPassName() changed to return StringRef
2016-11-21Restore compatibility with LLVM 3.7 and 3.8Seo Sanghyeon-17/+6
2016-11-19Auto merge of #37831 - rkruppe:llvm-attr-fwdcompat, r=eddybbors-122/+49
[LLVM 4.0] Use llvm::Attribute APIs instead of "raw value" APIs The latter will be removed in LLVM 4.0 (see https://github.com/llvm-mirror/llvm/commit/4a6fc8bacf11d8066da72cf8481467167877ed16). The librustc_llvm API remains mostly unchanged, except that llvm::Attribute is no longer a bitflag but represents only a *single* attribute. The ability to store many attributes in a small number of bits and modify them without interacting with LLVM is only used in rustc_trans::abi and closely related modules, and only attributes for function arguments are considered there. Thus rustc_trans::abi now has its own bit-packed representation of argument attributes, which are translated to rustc_llvm::Attribute when applying the attributes. cc #37609
2016-11-19Auto merge of #37822 - cuviper:llvm-link-shared, r=alexcrichtonbors-11/+34
rustbuild: allow dynamically linking LLVM The makefiles and `mklldeps.py` called `llvm-config --shared-mode` to find out if LLVM defaulted to shared or static libraries, and just went with that. But under rustbuild, `librustc_llvm/build.rs` was assuming that LLVM should be static, and even forcing `--link-static` for 3.9+. Now that build script also uses `--shared-mode` to learn the default, which should work better for pre-3.9 configured for dynamic linking, as it wasn't possible back then to choose differently via `llvm-config`. Further, the configure script now has a new `--enable-llvm-link-shared` option, which allows one to manually override `--link-shared` on 3.9+ instead of forcing static. Update: There are now four static/shared scenarios that can happen for the supported LLVM versions: - 3.9+: By default use `llvm-config --link-static` - 3.9+ and `--enable-llvm-link-shared`: Use `--link-shared` instead. - 3.8: Use `llvm-config --shared-mode` and go with its answer. - 3.7: Just assume static, maintaining the status quo.
2016-11-17rustbuild: update the llvm link logic furtherJosh Stone-26/+32
There are now four static/shared scenarios that can happen for the supported LLVM versions: - 3.9+: By default use `llvm-config --link-static` - 3.9+ and `--enable-llvm-link-shared`: Use `--link-shared` instead. - 3.8: Use `llvm-config --shared-mode` and go with its answer. - 3.7: Just assume static, maintaining the status quo.
2016-11-17Use llvm::Attribute API instead of "raw value" APIs, which will be removed ↵Robin Kruppe-122/+46
in LLVM 4.0. The librustc_llvm API remains mostly unchanged, except that llvm::Attribute is no longer a bitflag but represents only a *single* attribute. The ability to store many attributes in a small number of bits and modify them without interacting with LLVM is only used in rustc_trans::abi and closely related modules, and only attributes for function arguments are considered there. Thus rustc_trans::abi now has its own bit-packed representation of argument attributes, which are translated to rustc_llvm::Attribute when applying the attributes.
2016-11-16rustbuild: allow dynamically linking LLVMJosh Stone-3/+20
The makefiles and `mklldeps.py` called `llvm-config --shared-mode` to find out if LLVM defaulted to shared or static libraries, and just went with that. But under rustbuild, `librustc_llvm/build.rs` was assuming that LLVM should be static, and even forcing `--link-static` for 3.9+. Now that build script also uses `--shared-mode` to learn the default, which should work better for pre-3.9 configured for dynamic linking, as it wasn't possible back then to choose differently via `llvm-config`. Further, the configure script now has a new `--enable-llvm-link-shared` option, which allows one to manually override `--link-shared` on 3.9+ instead of forcing static.
2016-11-16fix `extern "aapcs" fn`Jorge Aparicio-0/+1
to actually use the AAPCS calling convention closes #37810 This is technically a [breaking-change] because it changes the ABI of `extern "aapcs"` functions that (a) involve `f32`/`f64` arguments/return values and (b) are compiled for arm-eabihf targets from "aapcs-vfp" (wrong) to "aapcs" (correct). Appendix: What these ABIs mean? - In the "aapcs-vfp" ABI or "hard float" calling convention: Floating point values are passed/returned through FPU registers (s0, s1, d0, etc.) - Whereas, in the "aapcs" ABI or "soft float" calling convention: Floating point values are passed/returned through general purpose registers (r0, r1, etc.) Mixing these ABIs can cause problems if the caller assumes that the routine is using one of these ABIs but it's actually using the other one.
2016-11-16Rebuild rustc_llvm when the rustllvm source files changeRobin Kruppe-0/+3
2016-11-15Auto merge of #37714 - alexcrichton:builtins-hidden, r=nikomatsakisbors-2/+10
rustc: Flag all builtins functions as hidden When compiling compiler-rt you typically compile with `-fvisibility=hidden` which to ensure that all symbols are hidden in shared objects and don't show up in symbol tables. This is important for these intrinsics being linked in every crate to ensure that we're not unnecessarily bloating the public ABI of Rust crates. This should help allow the compiler-builtins project with Rust-defined builtins start landing in-tree as well.
2016-11-12enable the MSP430 LLVM backendJorge Aparicio-1/+6
to let people experiment with this target out of tree. The MSP430 architecture is used in 16-bit microcontrollers commonly used in Digital Signal Processing applications.
2016-11-12rustc: Flag all builtins functions as hiddenAlex Crichton-2/+10
When compiling compiler-rt you typically compile with `-fvisibility=hidden` which to ensure that all symbols are hidden in shared objects and don't show up in symbol tables. This is important for these intrinsics being linked in every crate to ensure that we're not unnecessarily bloating the public ABI of Rust crates. This should help allow the compiler-builtins project with Rust-defined builtins start landing in-tree as well.
2016-11-10Register and stability check `#[no_link]` crates.Jeffrey Seyfried-0/+1
2016-11-09rustc_llvm: Require 3.9 for --link-staticAlex Crichton-1/+1
Apparently stock Ubuntu 16.04 includes LLVM 3.8 which doesn't have this flag.
2016-11-06Force static linking of LLVMpweyck-0/+13
Run llvm-config with "--link-static" if available, to force static linking of LLVM. This option was added in LLVM 3.8. Fixes #36854 See also: #36996
2016-10-22run rustfmt on librustc_llvm folderSrinivas Reddy Thatiparthy-508/+314
2016-10-14debuginfo: Remove some outdated stuff from LLVM DIBuilder binding.Michael Woerister-11/+0
2016-09-30TidyBrian Anderson-1/+2
2016-09-30Make the jsbackend an optional componentJan-Erik Rediger-1/+1
2016-09-30Configure LLVM to use js backendJan-Erik Rediger-0/+4
Initialize the asmjs backend for LLVM
2016-09-25Report which required build-time environment variable is not setJake Goulding-3/+3
2016-09-04Fix incorrect LLVM Linkage enumMatt Ickstadt-17/+11
The `Linkage` enum in librustc_llvm got out of sync with the version in LLVM and it caused two variants of the #[linkage=""] attribute to break. This adds the functions `LLVMRustGetLinkage` and `LLVMRustSetLinkage` which convert between the Rust Linkage enum and the LLVM one, which should stop this from breaking every time LLVM changes it. Fixes #33992
2016-08-30Allow specification of the system V AMD64 ABI constraint.CensoredUsername-0/+1
This can be specified using `extern sysV64 fn` on all platforms
2016-08-26initial support for s390xJorge Aparicio-1/+7
A new target, `s390x-unknown-linux-gnu`, has been added to the compiler and can be used to build no_core/no_std Rust programs. Known limitations: - librustc_trans/cabi_s390x.rs is missing. This means no support for `extern "C" fn`. - No support for this arch in libc. This means std can be cross compiled for this target.
2016-08-25Fix debug line info for macro expansions. Vadim Chugunov-0/+5
Macro expansions produce code tagged with debug locations that are completely different from the surrounding expressions. This wrecks havoc on debugger's ability the step over source lines. In order to have a good line stepping behavior in debugger, we overwrite debug locations of macro expansions with that of the outermost expansion site.