This patch reverts rL315440 because of the bug described at
https://bugs.llvm.org/show_bug.cgi?id=34937
The fix for the bug is on review as D38944, but not yet ready. Given this is a regression reverting until a fix is ready is called for.
Max would have done the revert himself, but is having trouble doing a build of fresh LLVM for some reason. I did the build and test to ensure the revert worked as expected on his behalf.
llvm-svn: 315974
The right way to parse arch names is by creating a triple. This was
using getArchTypeForLLVMName before, which doesn't really do the right
thing here.
llvm-svn: 315965
We want to be writing a 32bit value, so we should be writing 4 bytes
instead of 2.
Patch by Alex Langford <apl@fb.com>.
Differential Revision: https://reviews.llvm.org/D38872
llvm-svn: 315964
In r315960, I accidentally assumed that the first line segment is
guaranteed to be the non-gap region entry segment (given that one is
present). It can actually be any segment on the line, and the test I
checked in demonstrates that.
llvm-svn: 315963
This reverts commit r315713. It causes PR34968.
I think I know what the problem is, but I don't think I'll have time to fix it
this week.
llvm-svn: 315962
Gap areas make it possible to correctly determine when to use counts
from deferred regions. Before gap areas were introduced, llvm-cov needed
to use a heuristic to do this: it ignored counts from segments that
start, but do not end, on a line. This heuristic breaks down on a simple
example (see PR34962).
This patch removes the heuristic and picks counts from any region entry
segment which isn't a gap area.
llvm-svn: 315960
We add /usr/local/include to the include directory list for some BSD
systems. We should mark this as a system directory to avoid files from
/usr/local/include getting picked over files shipping with llvm.
This typically manifested as gtest headers installed with the system
getting picked over the ones shipping with llvm.
Patch by Petr Penzin <penzin.dev@gmail.com>
Differential Revision: https://reviews.llvm.org/D37415
llvm-svn: 315952
This reverts commit r315823, thus re-applying r315781.
Also make sure we don't use G_BITCAST mapping for non-generic registers.
Non-generic registers don't have a type but do have a reg bank.
Something the COPY mapping now how to deal with but the G_BITCAST
mapping don't.
-- Original Commit Message --
We use to resort on the generic implementation to get the mappings for
COPYs. The generic implementation resorts on table lookup and
dynamically allocated objects to get the valid mappings.
Given we already know how to map G_BITCAST and have the static mappings
for them, use that code path for COPY as well. This is much more
efficient.
Improve the compile time of RegBankSelect by up to 20%.
Note: When we eventually generate all the mappings via TableGen, we
wouldn't have to do that dance to shave compile time. The intent of this
change was to make sure that moving to static structure really pays off.
NFC.
llvm-svn: 315947
This patch adds a new kind of metadata that indicates the possible callees of
indirect calls.
Differential Revision: https://reviews.llvm.org/D37354
llvm-svn: 315944
This will prevent doubling of line endings when parsing assembly and
emitting assembly.
Otherwise we'd parse the directive, consume the end of statement, hit
the next end of statement, and emit a fresh newline.
llvm-svn: 315943
static __global int Var = 0;
__global int* Ptr[] = {&Var};
...
In this case Var is a non premptable symbol and so its address can be used as the value of Ptr, with a base relative relocation that will add the delta between the ELF address and the actual load address. Such relocations do not require a symbol.
Differential Revision: https://reviews.llvm.org/D38909
llvm-svn: 315935
MSVC doesn't seem to like implicitly instantiating addPredicate and then
explicitly specializing it later. It causes an internal compiler error.
llvm-svn: 315930
This patch adds the ability to perform IPSCCP-like interprocedural analysis to
the generic sparse propagation solver. The patch gives clients the ability to
define their own custom LatticeKey types that the generic solver maps to custom
LatticeVal types. The custom lattice keys can be used, for example, to
distinguish among mappings for regular values, values returned from functions,
and values stored in global variables. Clients are responsible for defining how
to convert between LatticeKeys and LLVM Values by providing a specialization of
the LatticeKeyInfo template.
The added unit tests demonstrate how the generic solver can be used to perform
a simplified version of interprocedural constant propagation.
Differential Revision: https://reviews.llvm.org/D37353
llvm-svn: 315919
above PHI instructions.
ARC optimizer has an optimization that moves a call to an ObjC runtime
function above a phi instruction when the phi has a null operand and is
an argument passed to the function call. This optimization should not
kick in when the runtime function is an objc_release that releases an
object with precise lifetime semantics.
rdar://problem/34959669
llvm-svn: 315914
Previously these instructions were marked codegen only and had
an under-specified instruction description that did not record the
fcc register.
Reviewers: atanasyan, abeserminji
Differential Revision: https://reviews.llvm.org/D38847
llvm-svn: 315905
Minor addition and follow up of r314773 and r311533: this adds more
debug messages to the type legalizer. For each node, it dumps
legalization info for results and operands nodes, rather than just the
final legalized node.
Differential Revision: https://reviews.llvm.org/D38726
llvm-svn: 315904
Max Kazantsev