similar to: [LLVMdev] Unnecessary moves after sign-extension in 2-address target

Displaying 20 results from an estimated 400 matches similar to: "[LLVMdev] Unnecessary moves after sign-extension in 2-address target"

2009 Apr 21
0
[LLVMdev] Unnecessary moves after sign-extension in 2-address target
Greg McGary wrote: > ********** REWRITING TWO-ADDR INSTRS ********** > ********** Function: sext > %reg1028<def> = sextb_r %reg1025<kill> > prepend: %reg1028<def> = mov_rr %reg1025<kill> > rewrite to: %reg1028<def> = sextb_r %reg1028 > ... > %reg1030<def> = sextw_r %reg1026<kill> > prepend:
2009 Apr 21
3
[LLVMdev] Unnecessary moves after sign-extension in 2-address target
Dan Gohman wrote: > On Apr 19, 2009, at 6:15 PM, Greg McGary wrote: > >> Because sextb_r and sextw_r have destination tied to source operands, >> TwoAddressInstructionPass thinks it needs a copy. However, since the >> sext kills its source, the copy is unnecessary. Why does this happen? >> Is TwoAddressInstructionPass relying on a later pass to notice this
2009 Apr 21
0
[LLVMdev] Unnecessary moves after sign-extension in 2-address target
On Apr 19, 2009, at 6:15 PM, Greg McGary wrote: > > Because sextb_r and sextw_r have destination tied to source operands, > TwoAddressInstructionPass thinks it needs a copy. However, since the > sext kills its source, the copy is unnecessary. Why does this happen? > Is TwoAddressInstructionPass relying on a later pass to notice this > and > transform it again? Yes, the
2009 Apr 22
0
[LLVMdev] Unnecessary moves after sign-extension in 2-address target
On Apr 21, 2009, at 4:02 PM, Greg McGary wrote: > Dan Gohman wrote: >> On Apr 19, 2009, at 6:15 PM, Greg McGary wrote: >> >>> Because sextb_r and sextw_r have destination tied to source >>> operands, >>> TwoAddressInstructionPass thinks it needs a copy. However, since >>> the >>> sext kills its source, the copy is unnecessary. Why
2006 Jun 30
3
[LLVMdev] Removing dead code
> > It seems to me that the only instructions > > with dead definitions that I should not remove are the calls. Is it true? > > I would like to know if a code like this below is safe, that is, besides > > call instructions, is there other instructions that must stay in the code > > even if their definitions are dead? > > > > MachineInstr * mi = iter; >
2009 Jan 09
2
[LLVMdev] implicit CC register Defs cause "physreg was not killed in defining block!" assert
Hello, For my backend, I define and use a CC register similiarly to the EFLAGS register in X86 (I call it CCFLAGS). But if I make all arithmetic/logic instructions affect it ('let Defs = [CCFLAGS] in...' in InstrInfo.td) I run into // The only case we should have a dead physreg here without a killing or // instruction where we know it's dead is if it is live-in to the function
2008 Sep 03
2
[LLVMdev] Codegen/Register allocation question.
Hi LLVMers, I have finally sorted out licensing issues and found some time, so I'm trying to port my PBQP register allocator to 2.4 in order to contribute it (if you want it). I've run into a bug that has me confused though. I'm currently failing the following assertion: llc: VirtRegMap.cpp:1733: void<unnamed>::LocalSpiller::RewriteMBB(llvm::MachineBasicBlock&,
2006 Jun 26
2
[LLVMdev] Mapping bytecode to X86
Dear guys, I am in need of more of your help. I'm implementing a register allocator, and I am having problems to make it produce correct code. Consider this program here: int main(int argc, char ** argv) { int i, j, sum; i = argv[0][0]; j = argv[0][1]; sum = (i + j) * j; printf("Sum = %d\n", sum); } that maps to this llvm bytecode: entry (0xa785590, LLVM
2008 Sep 04
0
[LLVMdev] Codegen/Register allocation question.
On Sep 3, 2008, at 5:58 AM, Lang Hames wrote: > Hi LLVMers, > > I have finally sorted out licensing issues and found some time, so I'm > trying to port my PBQP register allocator to 2.4 in order to Nice! We would definitely welcome your contribution. > > contribute it (if you want it). I've run into a bug that has me > confused though. > > I'm currently
2009 Jan 09
0
[LLVMdev] implicit CC register Defs cause "physreg was not killed in defining block!" assert
A physical register cannot be live across the block. So it must have a use in the block or it must be marked dead. From your dump, it looks like the CCFLAGS defs are not being marked dead. It's unclear where things went wrong, but you can step through LiveVariables to debug this. Evan On Jan 9, 2009, at 2:50 AM, Christian Sayer wrote: > Hello, > > For my backend, I define and
2009 Feb 13
3
[LLVMdev] Modeling GPU vector registers, again (with my implementation)
It seems to me that LLVM sub-register is not for the following hardware architecture. All instructions of a hardware are vector instructions. All registers contains 4 32-bit FP sub-registers. They are called r0.x, r0.y, r0.z, r0.w. Most instructions write more than one elements in this way: mul r0.xyw, r1, r2 add r0.z, r3, r4 sub r5, r0, r1 Notice that the four elements of r0 are written
2010 Sep 07
3
[LLVMdev] MachineMemOperand and dependence information
I have two questions regarding MachineMemOperands and dependence information. Q1) I noticed that MachineMemOperands are lost when two LDRs are combined and a LDRD is generated in ARMPreAllocLoadStoreOpt:::RescheduleOps. (before optimization) %reg1033<def> = LDR %reg1030, %reg0, 4100, pred:14, pred:%reg0; mem:LD4[%uglygep10] %reg1054<def> = LDR %reg1030, %reg0, 4104, pred:14,
2010 Sep 07
0
[LLVMdev] MachineMemOperand and dependence information
On Sep 7, 2010, at 10:48 AM, Akira Hatanaka wrote: > I have two questions regarding MachineMemOperands and dependence information. > > Q1) I noticed that MachineMemOperands are lost when two LDRs are combined and a LDRD is generated in ARMPreAllocLoadStoreOpt:::RescheduleOps. > > (before optimization) > %reg1033<def> = LDR %reg1030, %reg0, 4100, pred:14, pred:%reg0;
2010 Sep 07
1
[LLVMdev] MachineMemOperand and dependence information
Sorry, this is the part in ARMLoadStoreOptimizer.cpp that creates a LDRD instruction. Ops.pop_back(); Ops.pop_back(); // Form the pair instruction. if (isLd) { MachineInstrBuilder MIB = BuildMI(*MBB, InsertPos, dl, TII->get(NewOpc)) .addReg(EvenReg, RegState::Define)
2010 Aug 11
1
[LLVMdev] Need advice on writing scheduling pass
Hello LLVM developers, I have a few questions regarding the passes that are run after instruction selection and before register allocation. I am writing a scheduling pass (modulo scheduling). Before I ask my questions, I will first try to explain the approach I am taking. - Currently, I am running the passes in the following order. (-debug-pass=Structure output) Remove unreachable machine
2006 Jun 30
0
[LLVMdev] Removing dead code
On Thu, 29 Jun 2006, Fernando Magno Quintao Pereira wrote: > I am working in a register allocator for LLVM, and I realized that, > after I perform register allocation, there is many move instructions that > are dead code, and can safely be removed. It is easy for the RA algorithm > to remove these instructions. It seems to me that the only instructions > with dead definitions
2006 Jun 30
2
[LLVMdev] Removing dead code
Dear guys, I am working in a register allocator for LLVM, and I realized that, after I perform register allocation, there is many move instructions that are dead code, and can safely be removed. It is easy for the RA algorithm to remove these instructions. It seems to me that the only instructions with dead definitions that I should not remove are the calls. Is it true? I would like to know
2009 Feb 13
0
[LLVMdev] Modeling GPU vector registers, again (with my implementation)
On Feb 13, 2009, at 9:47 AM, Alex wrote: > It seems to me that LLVM sub-register is not for the following > hardware architecture. > > All instructions of a hardware are vector instructions. All > registers contains > 4 32-bit FP sub-registers. They are called r0.x, r0.y, r0.z, r0.w. > > Most instructions write more than one elements in this way: > > mul
2009 Jan 12
1
[LLVMdev] implicit CC register Defs cause "physreg was not killed in defining block!" assert
Evan, >A physical register cannot be live across the block. So it >must have a use in the block or it must be marked dead. From >your dump, it looks like the CCFLAGS defs are not being marked >dead. It's unclear where things went wrong, but you can step >through LiveVariables to debug this. Thanks for your response. I did quite some stepping through the llc passes, and it
2010 May 18
2
[LLVMdev] Fast register allocation
As you may have noticed, I have been working on a fast register allocator in the last week. The new allocator is intended to replace the local allocator for debug builds. Both allocators use a local allocation strategy. Each basic block is scanned from top to bottom, and virtual registers are assigned to physical registers as they appear. There are no live registers between blocks. Everything is