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https://github.com/c64scene-ar/llvm-6502.git
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6a7770b7ae
This changes the SelectionDAG scheduling preference to source order. Soon, the SelectionDAG scheduler can be bypassed saving a nice chunk of compile time. Performance differences that result from this change are often a consequence of register coalescing. The register coalescer is far from perfect. Bugs can be filed for deficiencies. On x86 SandyBridge/Haswell, the source order schedule is often preserved, particularly for small blocks. Register pressure is generally improved over the SD scheduler's ILP mode. However, we are still able to handle large blocks that require latency hiding, unlike the SD scheduler's BURR mode. MI scheduler also attempts to discover the critical path in single-block loops and adjust heuristics accordingly. The MI scheduler relies on the new machine model. This is currently unimplemented for AVX, so we may not be generating the best code yet. Unit tests are updated so they don't depend on SD scheduling heuristics. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@192750 91177308-0d34-0410-b5e6-96231b3b80d8
48 lines
1.4 KiB
LLVM
48 lines
1.4 KiB
LLVM
; RUN: llc -march=x86 -mcpu=generic -mattr=+sse < %s | FileCheck %s
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; RUN: llc -march=x86 -mcpu=atom -mattr=+sse < %s | FileCheck -check-prefix=ATOM %s
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%vec = type <6 x float>
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; CHECK: divps
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; CHECK: divss
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; CHECK: divss
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; Scheduler causes a different instruction order to be produced on Intel Atom
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; ATOM: divps
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; ATOM: divss
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; ATOM: divss
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define %vec @vecdiv( %vec %p1, %vec %p2)
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{
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%result = fdiv %vec %p1, %p2
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ret %vec %result
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}
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@a = constant %vec < float 2.0, float 4.0, float 8.0, float 16.0, float 32.0, float 64.0 >
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@b = constant %vec < float 2.0, float 2.0, float 2.0, float 2.0, float 2.0, float 2.0 >
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; Expected result: < 1.0, 2.0, 4.0, ..., 2.0^(n-1) >
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; main() returns 0 if the result is expected and 1 otherwise
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; to execute, use llvm-as < %s | lli
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define i32 @main() nounwind {
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entry:
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%avec = load %vec* @a
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%bvec = load %vec* @b
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%res = call %vec @vecdiv(%vec %avec, %vec %bvec)
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br label %loop
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loop:
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%idx = phi i32 [0, %entry], [%nextInd, %looptail]
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%expected = phi float [1.0, %entry], [%nextExpected, %looptail]
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%elem = extractelement %vec %res, i32 %idx
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%expcmp = fcmp oeq float %elem, %expected
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br i1 %expcmp, label %looptail, label %return
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looptail:
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%nextExpected = fmul float %expected, 2.0
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%nextInd = add i32 %idx, 1
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%cmp = icmp slt i32 %nextInd, 6
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br i1 %cmp, label %loop, label %return
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return:
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%retval = phi i32 [0, %looptail], [1, %loop]
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ret i32 %retval
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}
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