Displaying 20 results from an estimated 1000 matches similar to: "[LLVMdev] Are Opcode and register mappings exposed anywhere?"
2013 Oct 28
0
[LLVMdev] Are Opcode and register mappings exposed anywhere?
See the source here:
https://github.com/earl/llvm-mirror/blob/master/lib/Target/X86/InstPrinter/X86IntelInstPrinter.cpp.
It looks like getRegisterName might do what you want, but I don't know
where it's coming from. (Whether it's a function or a member of a super
class. Hopefully, if it's a member, it's public.)
PS Sorry for the duplicate, Stephen. I forgot to CC the list.
On
2013 Oct 28
2
[LLVMdev] Are Opcode and register mappings exposed anywhere?
On Oct 28, 2013, at 2:02 PM, Tyler Hardin <tghardin1 at catamount.wcu.edu> wrote:
> See the source here: https://github.com/earl/llvm-mirror/blob/master/lib/Target/X86/InstPrinter/X86IntelInstPrinter.cpp. It looks like getRegisterName might do what you want, but I don't know where it's coming from. (Whether it's a function or a member of a super class. Hopefully, if it's
2013 Oct 29
0
[LLVMdev] Are Opcode and register mappings exposed anywhere?
Can't you just include the generated files? What different way would you
like them exposed?
On Mon, Oct 28, 2013 at 11:23 AM, Stephen Checkoway <s at pahtak.org> wrote:
>
> On Oct 28, 2013, at 2:02 PM, Tyler Hardin <tghardin1 at catamount.wcu.edu>
> wrote:
>
> > See the source here:
>
2011 Jul 06
0
[LLVMdev] MCInstPrinter::printRegName
I have a question regarding implementation of subclasses of MCInstPrinter.
I am implementing Machine IR layer to MC layer lowering for Mips.
What's the best way to print the value of "Register" in the following code
in MCAsmStreamer::EmitRegisterName? Do I have to convert the LLVM register
number back to its corresponding dwarf register number in function
2010 Jun 08
2
[LLVMdev] Always unfold memory operand
Hi Eli,
I have tried this, but the resulting tool-chain was broken.
There are only two references to "CALL64m": the definition in
X86Instr64bit.td, and an entry in X86InstrInfo.cpp.
After commenting both out, compilation of a large application fails with:
llc: ScheduleDAG.cpp:462: void
llvm::ScheduleDAGTopologicalSort::InitDAGTopologicalSorting(): Assertion
`Node2Index[SU->NodeNum]
2010 Jun 09
1
[LLVMdev] Always unfold memory operand
After removing CALL64m, the resulting DAG has a cycle that cannot be
scheduled.
I've attached a PDF of the DAG before instruction selection
(-view-isel-dags), and after instruction select (-view-sched-dags).
Notice how the flag/chain relationships between MOV64rm and CALL64r make it
impossible to schedule.
Here's the code being compiled:
define ccc void @ArgsFree() nounwind {
entry:
2010 Jun 09
0
[LLVMdev] Always unfold memory operand
On Tue, Jun 8, 2010 at 4:20 PM, David Meyer <pdox at google.com> wrote:
> Hi Eli,
> I have tried this, but the resulting tool-chain was broken.
> There are only two references to "CALL64m": the definition in
> X86Instr64bit.td, and an entry in X86InstrInfo.cpp.
> After commenting both out, compilation of a large application fails with:
> llc: ScheduleDAG.cpp:462:
2011 Jun 22
2
[LLVMdev] ARM thumb-2 instruction used for non-thumb2 CPUs
On Jun 22, 2011, at 9:00 AM, Renato Golin wrote:
> On 22 June 2011 16:50, Jim Grosbach <grosbach at apple.com> wrote:
>>> This sounds like a dead end as newer binutils are GPLv3.
>>
>> Yeah, that's definitely a very real concern and a big motivation to get the MC based asm parser whipped into usable shape. We're much more in control of our own destiny then.
2017 Jun 09
2
Get segfault with ModulePass
Hi,
don't know if this is the right list. Please post a better place,
otherwise.
I'm currently writing a LLVM ModulePass and ran into strange segfaults or
endless loops within LLVM. My main question is, if this is a programming error
or API misuse from me or a LLVM bug?
Here is some minimal code, that triggers the bug:
----------------
class DebugPass : public ModulePass {
public:
2010 Jun 08
2
[LLVMdev] Always unfold memory operand
Hi,
I am attempting to modify LLVM to generate code for an architecture which is
nearly identical to X86-64, but with a few minor differences.
In particular, "call" must always have a register operand, and cannot have a
memory operand. Any ideas on how I can express this rule?
Thanks,
- David
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2011 Jun 22
0
[LLVMdev] ARM thumb-2 instruction used for non-thumb2 CPUs
On Jun 22, 2011, at 6:15 PM, Jim Grosbach wrote:
>
> On Jun 22, 2011, at 9:00 AM, Renato Golin wrote:
>
>> On 22 June 2011 16:50, Jim Grosbach <grosbach at apple.com> wrote:
>>>> This sounds like a dead end as newer binutils are GPLv3.
>>>
>>> Yeah, that's definitely a very real concern and a big motivation to get the MC based asm parser
2020 Feb 13
2
[RFC] Extension to TableGen's AssemblerPredicates to support combining features with ORs
Hi,
I'd like to propose extending the supported syntax for
AssemblerPredicates to allow sets of SubtargetFeatures to be listed, but
where only one in the list has to be enabled for the predicate to be true.
The condition string which forms a AssemblerPredicate already allows
multiple features to be defined, separated by commas, and this means all
of these features must be present. For
2010 Jun 08
0
[LLVMdev] Always unfold memory operand
On Tue, Jun 8, 2010 at 2:05 PM, David Meyer <pdox at google.com> wrote:
> Hi,
> I am attempting to modify LLVM to generate code for an architecture which is
> nearly identical to X86-64, but with a few minor differences.
> In particular, "call" must always have a register operand, and cannot have a
> memory operand. Any ideas on how I can express this rule?
Just get
2006 May 09
1
[LLVMdev] Instruction::getOpcodeName()
When compiling a release version on Linux with GCC 3.4.4, I get the
following warnings repeated multiple times when linking LLVMCore.o:
/usr/bin/ld: `.gnu.linkonce.t._ZNK4llvm11Instruction13getOpcodeNameEv' referenced in section `.gnu.linkonce.r._ZNK4llvm11Instruction13getOpcodeNameEv' of /proj/llvm/build/lib/VMCore/Release/Instruction.o: defined in discarded section
2011 Aug 30
2
[LLVMdev] cortex-m{3,4} special registers
Hi Kurt, Jim,
I took the liberty of working on this today.
The patch has become a bit of a frankenpatch, for the reasons listed out below
and so I won't be able to submit it until tomorrow.
The actual fix itself was very straightforward, but exposed a failing in the
FixedLenInstructionDecoder in that it does not support instruction predicates
such as "IsThumb2".
Generally this is
2018 Feb 07
2
retpoline mitigation and 6.0
On Wed, 2018-02-07 at 21:55 +0000, David Woodhouse via llvm-dev wrote:
> Can you take care of filing the tickets for %V0 and "=q"
> and attribute__((indirect_branch("keep"))) please? With those fixed, I
> think we should be OK again.
Here's %V0 support, which makes the hypervisor guest support build.
diff --git a/lib/Target/X86/X86AsmPrinter.cpp
2011 Aug 31
0
[LLVMdev] cortex-m{3,4} special registers
I can see that I'm totally out of my depth on these changes.
While I understand what both Jim Grosbach and James Molloy said,
I do not believe I'm capable of producing code that fits into
the LLVM ecosystem nicely.
-Kurt
On Tue, Aug 30, 2011 at 06:15:33PM +0100, James Molloy wrote:
> Hi Kurt, Jim,
>
> I took the liberty of working on this today.
>
> The patch has become
2016 Apr 24
2
Retrieving numeric value of instruction operand
Hello Everyone,
I need some help in retrieving the numeric value of an instruction operand
from LLVM IR.
this is what the IR looks like for a simple add function that adds two i32
integers
define i32 @summ(i32 %a, i32 %b) #0 {
entry:
%add = add nsw i32 %b, %a
ret i32 %add
}
i would like to know the integer value of %a and %b.
I've tried
-i->getOpcodeName() which gives me the
2018 Feb 07
2
retpoline mitigation and 6.0
On Wed, 2018-02-07 at 23:30 +0000, Chandler Carruth wrote:
> This should go to llvm-commits as a proper review. Do you want to do
> that David? Want someone on our end to pick it up?
I'll attempt to add some test cases...
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2010 Oct 28
0
[LLVMdev] Landing my new development on the trunk ...
On Wed, Oct 27, 2010 at 1:29 PM, Brian West <bnwest at rice.edu> wrote:
> Here is the patch for the new Operator Strength Reduction optimization
> pass that I have written. The bulk of the code is in
>
> lib/Transforms/Scalar/OperatorStrengthReduce.cpp
>
> The algorithm finds reduction opportunities in both array accesses and
> explicit multiplications within loops.