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15edbf989f
on any current target and aren't optimized in DAGCombiner. Instead of using intermediate nodes, expand the operations, choosing between simple loads/stores, target-specific code, and library calls, immediately. Previously, the code to emit optimized code for these operations was only used at initial SelectionDAG construction time; now it is used at all times. This fixes some cases where rep;movs was being used for small copies where simple loads/stores would be better. This also cleans up code that checks for alignments less than 4; let the targets make that decision instead of doing it in target-independent code. This allows x86 to use rep;movs in low-alignment cases. Also, this fixes a bug that resulted in the use of rep;stos for memsets of 0 with non-constant memory size when the alignment was at least 4. It's better to use the library in this case, which can be significantly faster when the size is large. This also preserves more SourceValue information when memory intrinsics are lowered into simple loads/stores. llvm-svn: 49572
23 lines
738 B
LLVM
23 lines
738 B
LLVM
; RUN: llvm-as < %s | llc -march=x86-64 | grep rep.movsq | count 2
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; RUN: llvm-as < %s | llc -march=x86 | grep rep.movsl | count 2
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%struct.s = type { i64, i64, i64, i64, i64, i64, i64, i64,
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i64, i64, i64, i64, i64, i64, i64, i64,
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i64 }
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define void @g(i64 %a, i64 %b, i64 %c) {
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entry:
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%d = alloca %struct.s, align 16
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%tmp = getelementptr %struct.s* %d, i32 0, i32 0
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store i64 %a, i64* %tmp, align 16
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%tmp2 = getelementptr %struct.s* %d, i32 0, i32 1
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store i64 %b, i64* %tmp2, align 16
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%tmp4 = getelementptr %struct.s* %d, i32 0, i32 2
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store i64 %c, i64* %tmp4, align 16
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call void @f( %struct.s* %d byval)
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call void @f( %struct.s* %d byval)
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ret void
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}
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declare void @f(%struct.s* byval)
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