ARMBaseRegisterInfo::canRealignStack was checking for variable-sized objects
but not for stack adjustments around calls. Use hasReservedCallFrame() to
check for both. The hasBasePointer function was already correctly checking
both conditions, so the effect of this was that a base pointer would be used
without checking whether the base pointer register could be reserved. I don't
have a small testcase for this.
<rdar://problem/11075906>
llvm-svn: 153110
Each platform now knows if it can handle an architecture and a platform can be found using an architecture. Each platform can look at the arch, vendor and OS and know if it should be used or not.
llvm-svn: 153104
This results in things such as
vmovups 16(%rdi), %xmm0
vinsertf128 $1, %xmm0, %ymm0, %ymm0
to be combined to
vinsertf128 $1, 16(%rdi), %ymm0, %ymm0
rdar://11076953
llvm-svn: 153092
From the Intel Optimization Reference Manual, Section 11.6.2. When data cannot
be aligned or alignment is not known, 16-byte memory accesses may provide better
performance.
rdar://11076953
llvm-svn: 153091
i128). In that case, we may not be able to print out the MCExpr as an
expression. For instance, we could have an MCExpr like this:
0xBEEF0000BEEF0000 | (0xBEEF0000BEEF0000 << 64)
The MCExpr printer handles sizes up to 64-bits, but this expression would
require 128-bits. In this situation, try to evaluate the constant expression and
emit that as the value into 64-bit chunks.
<rdar://problem/11070338>
llvm-svn: 153081
LLDB can match incorrect line table entries when an address is between two valid line entries (in the gap between the valid debug info), now it doesn't!
llvm-svn: 153077
(lldb) file /path/to/file.so
(lldb) crashlog crash.log
....
Then if the file.so has already been loaded it will use the one that is already in LLDB without trying to match up the paths.
llvm-svn: 153075
a variable. The previous code would break the debug info changing
code invariant. This will regress debug info for arguments where
we elide the alloca created.
Fixes rdar://11066468
llvm-svn: 153074
to pass to the toolchain in order to build the inferior programs to be run/debugged
duirng the test suite. The architecture might dictate some special CFLAGS which are
more easily specified in a central place (like the command line) instead of inside
make rules.
For Example,
./dotest.py -v -r /shared/phone -A armv7 -E "-isysroot your_sdk_root" functionalities/watchpoint/hello_watchpoint
will relocate the particular test directory ('functionalities/watchpoint/hello_watchpoint' in this case) to a
new directory named '/shared/phone'. The particular incarnation of the architecture-compiler combination of the
test support files are therefore to be found under:
/shared/phone.arch=armv7-compiler=clang/functionalities/watchpoint/hello_watchpoint
The building of the inferior programs under testing is now working.
The actual launching/debugging of the inferior programs are not yet working,
neither is the setting of a watchpoint on the phone.
llvm-svn: 153070
1) opt is not usually in the same path as the target program. Even for
the bugpoint as a standalone app, it should be more portable to search
in PATH, isn't it?
2) bugpoint driver accounts opt plugins, but does not list them in the
final output command.
Patch by Dmitry Mikushin!
llvm-svn: 153066
Ted Kremenek