[llvm-dev] Less aggressive on the first allocation of CSR if detecting an early exit (original) (raw)

Nemanja Ivanovic via llvm-dev llvm-dev at lists.llvm.org
Fri Nov 10 04:47:04 PST 2017

One thing I thought about doing a while back and never really wrote a POC for is the following:

The idea would be to favour CSR allocation in blocks that might be eligible for the prologue and favour splitting in blocks that we'd prefer not to have a prologue in (or before). Then a CFG such as this: A /
B C | /
| D E | | / | | / | |/ | / |/ F

I think this construction would give us what we want, but there may be [obvious] counter-examples I haven't thought of.

On Tue, Oct 31, 2017 at 8:38 PM, via llvm-dev <llvm-dev at lists.llvm.org> wrote:

On 2017-10-30 21:20, Hal Finkel wrote:

On 10/30/2017 12:20 PM, junbuml at codeaurora.org wrote:

On 2017-10-27 19:50, Hal Finkel wrote:

On 10/27/2017 03:32 PM, Jun Lim via llvm-dev wrote:

When compiling C code below for AArach64, I saw that shrink-wrapping didn't happen due to the very early uses of CSRs in the entry block. So CSR spills/reloads are executed even when the early exit block is taken.

int getI(int i); int foo(int *P, int i) { if (i>0) return P[i]; i = getI(i); return P[i]; } It's not that hard to find such cases where RegAllocGreedy aggressively allocates a CSRs when a live range expands across a call-site. That's because of the conservatively initialized CSRCost, causing RegAllocGreedy to strongly favour allocating a CSR over splitting a region. Since allocation of CSRs requires the cost of spilling CSRs, allocating CSRs is not always beneficial. Like the case above, if a function has an early exit code, we may want to be less aggressive on the first allocation of CSR in the entry block by increasing the CSRCost. Previously, I proposed https://reviews.llvm.org/D34608 in this matter, but the way I detect the profitable cases and the way I increase the CRSCost was somewhat unclear. Now, I'm thinking to less aggressive on the first allocation of CSR in the entry block in case where the function has an early exit so that encourage more shrink-wrapping and avoid executing CSR spill/recover when the early exit is taken. By sending this out, I just want to get any high level feedback early. Please let me know if anyone has any opinion about this.

So the heuristic will have nothing to do with the presence of calls? Might this increase spilling in loops? -Hal Before allowing the first allocation from CSRs, I will check if the virtual register is really live across a call in other blocks. If the function have a call in entry or exit, we don't need to increase the CSRCost. This heuristic will be applied only for the very first allocation from CSRs only in the entry block when the function has an early exit; if a CSR is already allocated in the function, we will use the current default global CSRCost. Even after increasing the CSRCost, we should end up allocating the first CSR if the cost of splitting the live-range is still higher than the increased CSRCost. I believe the amount we want to increase the CSRCost must be target-dependent, but it must be conservative enough to avoid too many copies in the related spots. Thanks for explaining. I suppose you'll want to make sure that the call(s) in question come after the early exit (i.e., that there aren't calls before the early exit)? I will check if a virtual register is live across only calls which will be executed when the early exit is not taken. By increasing CSRcost for such case, we increase chances to avoid executing CSR spill/recover when the early exit is taken. When you say "only in the entry block" you mean that the live range starts in the entry block, right (i.e., that it is a function parameter or a vreg defined by some instruction in the entry block)? Yes. Does it matter that it is in the entry block, or do you only need it to come before the early exit and have an execution frequency <= to the entry block's execution frequency? The reason I specifically check the entry block is because for now I see the early exit happen only in entry block; limiting that the early exit condition is checked in the entry block and branch to the exit block directly from the entry block if hitting the condition. If overall approach is reasonable, we can certainly extend it. -Hal Thanks, Jun

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-- Hal Finkel Lead, Compiler Technology and Programming Languages Leadership Computing Facility Argonne National Laboratory -- Qualcomm Datacenter Technologies, Inc. as an affiliate of Qualcomm Technologies, Inc. Qualcomm Technologies, Inc. is a member of the Code Aurora Forum, a Linux Foundation Collaborative Project.

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