Some architecture specific ELF section flags might have the same value
(for example SHF_X86_64_LARGE and SHF_HEX_GPREL) and we have to check
machine architectures to select an appropriate set of possible flags.
The patch selects architecture specific flags into separate arrays
`ElfxxxSectionFlags` and combines `ElfSectionFlags` and `ElfxxxSectionFlags`
before pass to the `StreamWriter::printFlags()` method.
Differential Revision: http://reviews.llvm.org/D16269
llvm-svn: 258334
The selection process being split into separate passes, we need generic opcodes
to translate the LLVM IR to target independent code.
This patch adds an opcode for addition: G_ADD.
Differential Revision: http://reviews.llvm.org/D15472
llvm-svn: 258333
When a symbol S shows up in an expression in assembly there are two
possible interpretations
* The expression is referring to the value of S in this file.
* The expression is referring to the value after symbol resolution.
In the first case the assembler can reason about the value and try to
produce a relocation.
In the second case, that is only possible if the symbol cannot be
preempted.
Assemblers are not very consistent about which interpretation gets used.
This changes MC to agree with GAS in the case of an expression of the
form "Sym - WeakSym".
llvm-svn: 258329
The test case will crash without this patch because the subsequent call to
hasUnsafeAlgebra() assumes that the call instruction is an FPMathOperator
(ie, returns an FP type).
This part of the function signature check was omitted for the sqrt() case,
but seems to be in place for all other transforms.
Before:
http://reviews.llvm.org/rL257400
...we would have needlessly continued execution in optimizeSqrt(), but the
bug was harmless because we'd eventually fail some other check and return
without damage.
This should fix:
https://llvm.org/bugs/show_bug.cgi?id=26211
Differential Revision: http://reviews.llvm.org/D16198
llvm-svn: 258325
There was support for writing the AArch64 big endian data fixup entries in
the .eh_frame section in BE. This is changed to write all such fixup
entries in BE with no restriction on the section. This is similar to
the existing support for fixup entries for ARM.
A test is added to check the length field in the .debug_line section as
this is an example of where such a fixup occurs.
Differential Revision: http://reviews.llvm.org/D16064
llvm-svn: 258320
There was a bug in my rL258132 because there's an overloading of the "movsd" and "cmpsd" instructions, e.g. movsd can be either "Move Data from String to String" (the case I wanted to handle) or "Move or Merge Scalar Double-Precision Floating-Point Value" (the case that causes the asserts).
Added code for escaping the unfamiliar scenarios and falling back to old behviour.
Also changed the asserts to llvm_unreachable.
llvm-svn: 258312
If converter was somewhat careless about "diamond" cases, where there
was no join block, or in other words, where the true/false blocks did
not have analyzable branches. In such cases, it was possible for it to
remove (needed) branches, resulting in a loss of entire basic blocks.
Differential Revision: http://reviews.llvm.org/D16156
llvm-svn: 258310
The AArch64 .inst directive was implemented using EmitIntValue, which resulted
in both $x and $d (code and data) mapping symbols being emitted at the same
address. This fixes it to only emit the $x mapping symbol.
EmitIntValue also emits the value in big-endian order when targeting big-endian
systems, but instructions are always emitted in little-endian order for
AArch64.
Differential Revision: http://reviews.llvm.org/D16349
llvm-svn: 258308
This addresses PR26060 where function lto_module_create() could return nullptr
but lto_get_error_message() returned an empty string.
The error() call after LTOModule::createFromFile() in llvm-lto is then removed
because any error from this function should go through the diagnostic handler in
llvm-lto which will exit the program. The error() call was added because this
previously did not happen when the file was non-existent. This is fixed by the
patch. (The situation that llvm-lto reports an error when the input file does
not exist is tested by llvm/tools/llvm-lto/error.ll).
Differential Revision: http://reviews.llvm.org/D16106
llvm-svn: 258298
Summary:
Fix a significant performance regression by introducing GlobalValueVisited field and reusing the map.
This is a follow up to r257823 that slowed down linking Chrome with LTO by 2.5x.
If you revert this commit, please, also revert r257823.
BUG=https://llvm.org/bugs/show_bug.cgi?id=26214
Reviewers: pcc, loladiro, joker.eph
Subscribers: krasin1, joker.eph, loladiro, pcc
Differential Revision: http://reviews.llvm.org/D16338
llvm-svn: 258297
SelectionDAG previously missed opportunities to fold constants into
GlobalAddresses in several areas. For example, given `(add (add GA, c1), y)`, it
would often reassociate to `(add (add GA, y), c1)`, missing the opportunity to
create `(add GA+c, y)`. This isn't often visible on targets such as X86 which
effectively reassociate adds in their complex address-mode folding logic,
however it is currently visible on WebAssembly since it currently has very
simple address mode folding code that doesn't reassociate anything.
This patch fixes this by making SelectionDAG fold offsets into GlobalAddresses
at the same times that it folds constants together, so that it doesn't miss any
opportunities to perform such folding.
Differential Revision: http://reviews.llvm.org/D16090
llvm-svn: 258296
Summary:
This is a re-commit of r257003, which was reverted,
along with the fixes from http://reviews.llvm.org/D15986.
r252532 added support for reporting the monolithic library
when LLVM_BUILD_LLVM_DYLIB is used. This would only be done
if the individual components were not found, and the dynamic
library is found.
This diff extends this as follows:
- If LLVM_LINK_LLVM_DYLIB is set, then prefer the shared
library, even if all component libraries exist.
- Two flags, --link-shared and --link-static are introduced
to provide explicit guidance. If --link-shared is passed
and the shared library does not exist, an error results.
Additionally, changed the expected shared library names from
(e.g.) LLVM-3.8.0 to LLVM-3.8. The former exists only in an
installation (and then only in CMake builds I think?), and not
in the build tree; this breaks usage of llvm-config during
builds, e.g. by llvm-go.
Reviewers: DiamondLovesYou, beanz
Subscribers: llvm-commits
Differential Revision: http://reviews.llvm.org/D15986
llvm-svn: 258283
Summary:
Funclet EH tables require that a given funclet have only one unwind
destination for exceptional exits. The verifier will therefore reject
e.g. two cleanuprets with different unwind dests for the same cleanup, or
two invokes exiting the same funclet but to different unwind dests.
Because catchswitch has no 'nounwind' variant, and because IR producers
are not *required* to annotate calls which will not unwind as 'nounwind',
it is legal to nest a call or an "unwind to caller" catchswitch within a
funclet pad that has an unwind destination other than caller; it is
undefined behavior for such a call or catchswitch to unwind.
Normally when inlining an invoke, calls in the inlined sequence are
rewritten to invokes that unwind to the callsite invoke's unwind
destination, and "unwind to caller" catchswitches in the inlined sequence
are rewritten to unwind to the callsite invoke's unwind destination.
However, if such a call or "unwind to caller" catchswitch is located in a
callee funclet that has another exceptional exit with an unwind
destination within the callee, applying the normal transformation would
give that callee funclet multiple unwind destinations for its exceptional
exits. There would be no way for EH table generation to determine which
is the "true" exit, and the verifier would reject the function
accordingly.
Add logic to the inliner to detect these cases and leave such calls and
"unwind to caller" catchswitches as calls and "unwind to caller"
catchswitches in the inlined sequence.
This fixes PR26147.
Reviewers: rnk, andrew.w.kaylor, majnemer
Subscribers: alexcrichton, llvm-commits
Differential Revision: http://reviews.llvm.org/D16319
llvm-svn: 258273
Note that this is disabled by default and still requires a patch to
handleMove() which is not upstreamed yet.
If the TrackLaneMasks policy/strategy is enabled the MachineScheduler
will build a schedule graph where definitions of independent
subregisters are no longer serialised.
Implementation comments:
- Without lane mask tracking a sub register def also counts as a use
(except for the first one with the read-undef flag set), with lane
mask tracking enabled this is no longer the case.
- Pressure Diffs where previously maintained per definition of a
vreg with the help of the SSA information contained in the
LiveIntervals. With lanemask tracking enabled we cannot do this
anymore and instead change the pressure diffs for all uses of the vreg
as it becomes live/dead. For this changed style to work correctly we
ignore uses of instructions that define the same register again: They
won't affect register pressure.
- With lanemask tracking we remove all read-undef flags from
sub register defs when building the graph and re-add them later when
all vreg lanes have become dead.
Differential Revision: http://reviews.llvm.org/D14969
llvm-svn: 258259
This renaming is necessary to avoid a subregister aware scheduler
accidentally creating liveness "holes" which are rejected by the
MachineVerifier.
Explanation as found in this patch:
Helper class that can divide MachineOperands of a virtual register into
equivalence classes of connected components.
MachineOperands belong to the same equivalence class when they are part of
the same SubRange segment or adjacent segments (adjacent in control
flow); Different subranges affected by the same MachineOperand belong to
the same equivalence class.
Example:
vreg0:sub0 = ...
vreg0:sub1 = ...
vreg0:sub2 = ...
...
xxx = op vreg0:sub1
vreg0:sub1 = ...
store vreg0:sub0_sub1
The example contains 3 different equivalence classes:
- One for the (dead) vreg0:sub2 definition
- One containing the first vreg0:sub1 definition and its use,
but not the second definition!
- The remaining class contains all other operands involving vreg0.
We provide a utility function here to rename disjunct classes to different
virtual registers.
Differential Revision: http://reviews.llvm.org/D16126
llvm-svn: 258257
Summary:
This teaches MachineSink to not sink instructions that might break the
implicit null check optimization that runs later. This should not
affect frontends that do not use implicit null checks.
Reviewers: aadg, reames, hfinkel, atrick
Subscribers: majnemer, llvm-commits
Differential Revision: http://reviews.llvm.org/D14632
llvm-svn: 258254
calling convention.
The implementation of the related callbacks in the x86 backend for such
functions are not ready to deal with a prologue block that is not the entry
block of the function.
This fixes PR26107, but the longer term solution would be to fix those callbacks.
llvm-svn: 258221
I think I fixed all instances of this in the codebase
(r258202, 258200, 258190). Also, the suppression didn't
have an effect on bots using make anyways, and it looks
like many bots still use configure/make bots.
llvm-svn: 258210
As vector shuffles can only reference two inputs many (V)INSERTPS patterns end up being split over two targets shuffles.
This patch adds combines to attempt to combine (V)INSERTPS nodes with input/output nodes that are just zeroing out these additional vector elements.
Differential Revision: http://reviews.llvm.org/D16072
llvm-svn: 258205