77ff499a0c
test the mips64 targets These should be all the required changes I think but libloading can't be cross compiled for these new targets: ``` error: failed to run custom build command for `libloading v0.3.1` process didn't exit successfully: `/target/debug/build/libloading-07147fe7fffab0b2/build-script-build`(exit code: 101) --- stderr thread 'main' panicked at 'could not get target info: TargetNotFound', ../src/libcore/result.rs:799 note: Run with `RUST_BACKTRACE=1` for a backtrace. ``` I've openend nagisa/rust_libloading#19 to track that. Wel'll have to wait until that's fixed. cc @alexcrichton |
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ci | ||
compiler-rt | ||
gcc_s | ||
src | ||
.gitignore | ||
.gitmodules | ||
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Cargo.toml | ||
LICENSE.TXT | ||
README.md | ||
appveyor.yml | ||
build.rs |
README.md
compiler-builtins
[WIP] Porting
compiler-rt
intrinsics to Rust
See rust-lang/rust#35437.
When and how to use this crate?
If you are working with a target that doesn't have binary releases of std available via rustup (this
probably means you are building the core crate yourself) and need compiler-rt intrinsics (i.e. you
are probably getting linker errors when building an executable: undefined reference to __aeabi_memcpy
), you can use this crate to get those intrinsics and solve the linker errors. To do
that, simply add this crate as a Cargo dependency (it doesn't matter where in the dependency graph
this crate ends up, as long as it's there):
[dependencies]
compiler_builtins = { git = "https://github.com/rust-lang-nursery/compiler-builtins" }
If you still get an "undefined reference to $INTRINSIC" error after that change,
that means that we haven't ported $INTRINSIC
to Rust yet! Please open an
issue with the name of the intrinsic and the LLVM triple (e.g.
thumbv7m-none-eabi) of the target you are using. That way we can prioritize
porting that particular intrinsic.
If you've got a C compiler available for your target then while we implement this intrinsic you can temporarily enable a fallback to the actual compiler-rt implementation as well for unimplemented intrinsics:
[dependencies.compiler_builtins]
git = "https://github.com/rust-lang-nursery/compiler-builtins"
features = ["c"]
Contributing
- Pick one or more intrinsics from the [pending list][#progress].
- Fork this repository
- Port the intrinsic(s) and their corresponding unit tests from their C implementation to Rust.
- Send a Pull Request (PR)
- Once the PR passes our extensive testing infrastructure, we'll merge it!
- Celebrate 🎉
Porting Reminders
- Rust and C have slightly different operator precedence. C evaluates comparisons (
== !=
) before bitwise operations (& | ^
), while Rust evaluates the other way. - C assumes wrapping operations everywhere. Rust panics on overflow when in debug mode. Consider using the Wrapping type or the explicit wrapping_* functions where applicable.
- Note C implicit casts, especially integer promotion. Rust is much more explicit about casting, so be sure that any cast which affects the output is ported to the Rust implementation.
- Rust has many functions for integer or floating point manipulation in the standard library. Consider using one of these functions rather than porting a new one.
Progress
- adddf3.c
- addsf3.c
- arm/adddf3vfp.S
- arm/addsf3vfp.S
- arm/aeabi_dcmp.S
- arm/aeabi_fcmp.S
- arm/aeabi_idivmod.S
- arm/aeabi_ldivmod.S
- arm/aeabi_memcpy.S
- arm/aeabi_memmove.S
- arm/aeabi_memset.S
- arm/aeabi_uidivmod.S
- arm/aeabi_uldivmod.S
- arm/divdf3vfp.S
- arm/divmodsi4.S (generic version is done)
- arm/divsf3vfp.S
- arm/divsi3.S (generic version is done)
- arm/eqdf2vfp.S
- arm/eqsf2vfp.S
- arm/extendsfdf2vfp.S
- arm/fixdfsivfp.S
- arm/fixsfsivfp.S
- arm/fixunsdfsivfp.S
- arm/fixunssfsivfp.S
- arm/floatsidfvfp.S
- arm/floatsisfvfp.S
- arm/floatunssidfvfp.S
- arm/floatunssisfvfp.S
- arm/gedf2vfp.S
- arm/gesf2vfp.S
- arm/gtdf2vfp.S
- arm/gtsf2vfp.S
- arm/ledf2vfp.S
- arm/lesf2vfp.S
- arm/ltdf2vfp.S
- arm/ltsf2vfp.S
- arm/modsi3.S (generic version is done)
- arm/muldf3vfp.S
- arm/mulsf3vfp.S
- arm/nedf2vfp.S
- arm/negdf2vfp.S
- arm/negsf2vfp.S
- arm/nesf2vfp.S
- arm/softfloat-alias.list
- arm/subdf3vfp.S
- arm/subsf3vfp.S
- arm/truncdfsf2vfp.S
- arm/udivmodsi4.S (generic version is done)
- arm/udivsi3.S (generic version is done)
- arm/umodsi3.S (generic version is done)
- arm/unorddf2vfp.S
- arm/unordsf2vfp.S
- ashldi3.c
- ashrdi3.c
- divdf3.c
- divdi3.c
- divmoddi4.c
- divmodsi4.c
- divsf3.c
- divsi3.c
- extendhfsf2.c
- extendsfdf2.c
- fixdfdi.c
- fixdfsi.c
- fixsfdi.c
- fixsfsi.c
- fixunsdfdi.c
- fixunsdfsi.c
- fixunssfdi.c
- fixunssfsi.c
- floatdidf.c
- floatdisf.c
- floatsidf.c
- floatsisf.c
- floatundidf.c
- floatundisf.c
- floatunsidf.c
- floatunsisf.c
- i386/ashldi3.S
- i386/ashrdi3.S
- i386/chkstk.S
- i386/chkstk2.S
- i386/divdi3.S
- i386/lshrdi3.S
- i386/moddi3.S
- i386/muldi3.S
- i386/udivdi3.S
- i386/umoddi3.S
- lshrdi3.c
- moddi3.c
- modsi3.c
- muldf3.c
- muldi3.c
- mulodi4.c
- mulosi4.c
- mulsf3.c
- powidf2.c
- powisf2.c
- subdf3.c
- subsf3.c
- truncdfhf2.c
- truncdfsf2.c
- truncsfhf2.c
- udivdi3.c
- udivmoddi4.c
- udivmodsi4.c
- udivsi3.c
- umoddi3.c
- umodsi3.c
- x86_64/chkstk.S
- x86_64/chkstk2.S
These builtins are needed to support 128-bit integers, which are in the process of being added to Rust.
- ashlti3.c
- ashrti3.c
- divti3.c
- fixdfti.c
- fixsfti.c
- fixunsdfti.c
- fixunssfti.c
- floattidf.c
- floattisf.c
- floatuntidf.c
- floatuntisf.c
- lshrti3.c
- modti3.c
- muloti4.c
- multi3.c
- udivmodti4.c
- udivti3.c
- umodti3.c
Unimplemented functions
These builtins involve floating-point types ("f128
", "f80
" and complex numbers) that are not supported by Rust.
addtf3.ccomparetf2.cdivdc3.cdivsc3.cdivtc3.cdivtf3.cdivxc3.cextenddftf2.cextendsftf2.cfixtfdi.cfixtfsi.cfixtfti.cfixunstfdi.cfixunstfsi.cfixunstfti.cfixunsxfdi.cfixunsxfsi.cfixunsxfti.cfixxfdi.cfixxfti.cfloatditf.cfloatdixf.cfloatsitf.cfloattixf.cfloatunditf.cfloatundixf.cfloatunsitf.cfloatuntixf.ci386/floatdixf.Si386/floatundixf.Smuldc3.cmulsc3.cmultc3.cmultf3.cmulxc3.cpowitf2.cpowixf2.cppc/divtc3.cppc/fixtfdi.cppc/fixunstfdi.cppc/floatditf.cppc/floatunditf.cppc/gcc_qadd.cppc/gcc_qdiv.cppc/gcc_qmul.cppc/gcc_qsub.cppc/multc3.csubtf3.ctrunctfdf2.ctrunctfsf2.cx86_64/floatdixf.cx86_64/floatundixf.S
These builtins are never called by LLVM.
absvdi2.cabsvsi2.cabsvti2.caddvdi3.caddvsi3.caddvti3.carm/aeabi_cdcmp.Sarm/aeabi_cdcmpeq_check_nan.carm/aeabi_cfcmp.Sarm/aeabi_cfcmpeq_check_nan.carm/aeabi_div0.carm/aeabi_drsub.carm/aeabi_frsub.carm/aeabi_memcmp.Sarm/bswapdi2.Sarm/bswapsi2.Sarm/clzdi2.Sarm/clzsi2.Sarm/comparesf2.Sarm/restore_vfp_d8_d15_regs.Sarm/save_vfp_d8_d15_regs.Sarm/switch16.Sarm/switch32.Sarm/switch8.Sarm/switchu8.Sclzdi2.cclzsi2.cclzti2.ccmpdi2.ccmpti2.ccomparedf2.ccomparesf2.cctzdi2.cctzsi2.cctzti2.cffsdi2.cffsti2.cmulvdi3.cmulvsi3.cmulvti3.cnegdf2.cnegdi2.cnegsf2.cnegti2.cnegvdi2.cnegvsi2.cnegvti2.cparitydi2.cparitysi2.cparityti2.cpopcountdi2.cpopcountsi2.cpopcountti2.cppc/restFP.Sppc/saveFP.Ssubvdi3.csubvsi3.csubvti3.cucmpdi2.cucmpti2.cudivmodti4.c
Rust only exposes atomic types on platforms that support them, and therefore does not need to fall back to software implementations.
arm/sync_fetch_and_add_4.Sarm/sync_fetch_and_add_8.Sarm/sync_fetch_and_and_4.Sarm/sync_fetch_and_and_8.Sarm/sync_fetch_and_max_4.Sarm/sync_fetch_and_max_8.Sarm/sync_fetch_and_min_4.Sarm/sync_fetch_and_min_8.Sarm/sync_fetch_and_nand_4.Sarm/sync_fetch_and_nand_8.Sarm/sync_fetch_and_or_4.Sarm/sync_fetch_and_or_8.Sarm/sync_fetch_and_sub_4.Sarm/sync_fetch_and_sub_8.Sarm/sync_fetch_and_umax_4.Sarm/sync_fetch_and_umax_8.Sarm/sync_fetch_and_umin_4.Sarm/sync_fetch_and_umin_8.Sarm/sync_fetch_and_xor_4.Sarm/sync_fetch_and_xor_8.Sarm/sync_synchronize.Satomic.catomic_flag_clear.catomic_flag_clear_explicit.catomic_flag_test_and_set.catomic_flag_test_and_set_explicit.catomic_signal_fence.catomic_thread_fence.c
Miscellaneous functionality that is not used by Rust.
apple_versioning.cclear_cache.cemutls.cenable_execute_stack.ceprintf.cgcc_personality_v0.ctrampoline_setup.c
Floating-point implementations of builtins that are only called from soft-float code. It would be better to simply use the generic soft-float versions in this case.
i386/floatdidf.Si386/floatdisf.Si386/floatundidf.Si386/floatundisf.Sx86_64/floatundidf.Sx86_64/floatundisf.Sx86_64/floatdidf.cx86_64/floatdisf.c
License
The compiler-builtins crate is dual licensed under both the University of Illinois "BSD-Like" license and the MIT license. As a user of this code you may choose to use it under either license. As a contributor, you agree to allow your code to be used under both.
Full text of the relevant licenses is in LICENSE.TXT.