This patch improves the support for picking Multilibs from gcc installations.
It also provides a better approximation for the flags '-print-multi-directory'
and '-print-multi-lib'.
This reverts r201203 (i.e. re-applying r201202 with small fixes in
unittests/CMakeLists.txtto make the build bots happy).
review: http://llvm-reviews.chandlerc.com/D2538
llvm-svn: 201205
This patch improves the support for picking Multilibs from gcc installations.
It also provides a better approximation for the flags '-print-multi-directory'
and '-print-multi-lib'.
review: http://llvm-reviews.chandlerc.com/D2538
llvm-svn: 201202
Previously we had bodged together some hacks mapping MachO embedded
targets (i.e. mainly ARM v6M and v7M) to the "*-*-darwin-eabi" triple.
This is incorrect in both details (they don't run Darwin and they're
not EABI in any real sense).
This commit appropriates the existing "MachO" environment for the
purpose instead.
llvm-svn: 199367
encodes the canonical rules for LLVM's style. I noticed this had drifted
quite a bit when cleaning up LLVM, so wanted to clean up Clang as well.
llvm-svn: 198686
This refactors some of the Darwin toolchain classification to give a more solid
distinction between the three primary Darwin platforms (OS X, IOS and IOS
simulator) so that a 4th choice can be added temporarily: embedded MachO
targets.
Longer term, this support will be factored out into a separate class and no
longer classified as "darwin-eabi", but the refactoring should still be useful.
llvm-svn: 197148
This is an experimental feature, where -integrated-as will be
on by default on ARM/Thumb. We aim to detect the missing features
so that the next release is stable.
Updating the ReleaseNotes, too.
Also moving the AArch64 into the same place.
llvm-svn: 197024
The integrated assembler was already the default for win32. It is now able
to handle a clang bootstrap on mingw, so make it the default.
llvm-svn: 195676
Clang still has support for running gcc for performing various stages
of a build. Right now it looks like this is used for
* Supporting Fortran in the clang driver
* Running an assembler or linker in systems we don't yet know how to
run them directly.
It looks like the gcc::Precompile is a vestige from the days when we
supported using clang for C and running gcc for c++. This patch removes it
(yes, we have no tests for it).
llvm-svn: 195586
This is currently unused by any test. The code path would still be hit
by clang on ppc, but
* PPC has not been supported on current versions of OS X
* A port of current clang to older OS X on ppc should be using
toolchains::DarwinClang.
llvm-svn: 195585
actually a MIPS-only hack to shim in random ABI directory suffixes in
numerous places throughout the toolchain's path search. It shouldn't
appear to be anything more general or useful.
llvm-svn: 193595
multi-library path suffix.
The code calculates MIPS toolchain specific multi-lib path suffixes like
mips16/soft-float/el is moved to the separate function
findMultiLibSuffix(). This function called during GCC installation
detection and result is stored for the future using.
The patch reviewed by Rafael Espindola.
http://llvm-reviews.chandlerc.com/D1738
llvm-svn: 191612
which add another wrinkle to the installation of the libstdc++ headers.
Add at least some basic testing of the weirdnesses of Gentoo's layout.
llvm-svn: 189212
Summary:
This change turns SanitizerArgs into high-level options
stored in the Driver, which are parsed lazily. This fixes an issue of multiple copies of the same diagnostic message produced by sanitizer arguments parser.
Reviewers: rsmith
Reviewed By: rsmith
CC: chandlerc, eugenis, cfe-commits
Differential Revision: http://llvm-reviews.chandlerc.com/D1341
llvm-svn: 188660
Otherwise it lists all files (e.g. shared libraries) that happen to be in the
same paths the GCC installations usually reside in.
On a x86_64 Debian 7 system with i386 multilibs.
before: clang -v 2>&1|wc -l
3059
after: clang -v 2>&1|wc -l
10
llvm-svn: 188400
on the system, and report it when running the driver in verbose mode.
Without this it is essentially impossible to understand why a particular
GCC toolchain is used by Clang for libstdc++, libgcc, etc.
This also required threading a hook through the toolchain layers for
a specific toolchain implementation to print custom information under
'clang -v'. The naming here isn't spectacular. Suggestions welcome.
llvm-svn: 187427
There are fundamentally two different things that were getting conflated
here.
1) A bi-arch GCC toolchain install. This is not a full blown cross
compiler, but it supports targetting both 32-bit and 64-bit variants
of the same architecture using multilib OS installs and runtimes.
2) A "multiarch" Debian OS/runtime layout that lays out the libraries,
headers, etc as-if there were going to be a full blown cross compiler
even when in reality it is just a bi-arch GCC targeting two variants.
Also, these tend to use oddly "canonicalized" triples without the
vendor in them unlike the typical cross compiler runtime library
search that vanilla GCC cross compilers perform.
Now, when we mean the bi-arch nature of GCC accomplished with just
a suffix or tweak to the GCC paths, we say 'Biarch' or something
related. When we mean the Debian layout of includes and libraries, we
say multiarch or reference the multiarch triple.
In the process of reading and often renaming stuff in all these places,
also reformat with clang-format. No functionality change should be going
on here, this is just tidying up.
llvm-svn: 184632
This adds a bunch of llvm::opt name specifiers to all the uses of types
from that namespace.
Reviewers: espindola
Differential Revision: http://llvm-reviews.chandlerc.com/D983
llvm-svn: 184079
Sourcery CodeBench and modern FSF Mips toolchains require a bit more
complicated algorithm to calculate headers, libraries and sysroot paths
than implemented by Clang driver now. The main problem is that all these
paths depend on a set of command line arguments additionally to a target
triple value. For example, let $TC is a toolchain installation directory.
If we compile big-endian 32-bit mips code, crtbegin.o is in the
$TC/lib/gcc/mips-linux-gnu/4.7.2 folder and the toolchain's linker requires
--sysroot=$TC/mips-linux-gnu/libc argument. If we compile little-endian
32-bit soft-float mips code, crtbegin.o is in the
$TC/lib/gcc/mips-linux-gnu/4.7.2/soft-float/el folder and the toolchain's
linker requires --sysroot=$TC/mips-linux-gnu/libc/soft-float/el argument.
1. Calculate MultiarchSuffix using all necessary command line options and
use this MultiarchSuffix to detect crtbegin.o location in the
GCCInstallationDetector::ScanLibDirForGCCTriple() routine.
2. If a user does not provide --sysroot argument to the driver explicitly,
calculate new sysroot value based on command line options. Then use this
calculated sysroot path:
a. To populate a file search paths list in the Linux::Linux() constructor.
b. To find Mips toolchain specific include headers directories
in the Linux::AddClangSystemIncludeArgs() routine.
c. To provide -–sysroot argument for a linker.
Note:
- The FSF's tree slightly differs (folder names) and is not supported
yet.
- New addExternCSystemIncludeIfExits() routine is a temporary solution.
I plan to move path existence check to the addExternCSystemInclude()
routine by a separate commit.
The patch reviewed by Rafael Espindola.
http://llvm-reviews.chandlerc.com/D644
llvm-svn: 179934
Each toolchain has a set of tools, but they are all of known types. It can
have a linker, an assembler, a "clang" (compile, analyze, ...) a non-clang
compiler, etc.
Instead of keeping a map, just have member variable for each type of tool.
llvm-svn: 177479
The general pattern now is that Foobar::constructTool only creates tools
defined in the tools::foobar namespace and then delegates to the parent.
The remaining duplicated code is now in the tools themselves.
llvm-svn: 177368
Craig Topper