forked from OSchip/llvm-project
347 lines
9.6 KiB
LLVM
347 lines
9.6 KiB
LLVM
; RUN: llc < %s -mtriple=i686-windows | FileCheck %s -check-prefix=NORMAL
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; RUN: llc < %s -mtriple=x86_64-windows | FileCheck %s -check-prefix=X64
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; RUN: llc < %s -mtriple=i686-windows -force-align-stack -stack-alignment=32 | FileCheck %s -check-prefix=ALIGNED
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declare void @good(i32 %a, i32 %b, i32 %c, i32 %d)
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declare void @inreg(i32 %a, i32 inreg %b, i32 %c, i32 %d)
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declare void @oneparam(i32 %a)
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declare void @eightparams(i32 %a, i32 %b, i32 %c, i32 %d, i32 %e, i32 %f, i32 %g, i32 %h)
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; Here, we should have a reserved frame, so we don't expect pushes
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; NORMAL-LABEL: test1:
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; NORMAL: subl $16, %esp
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; NORMAL-NEXT: movl $4, 12(%esp)
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; NORMAL-NEXT: movl $3, 8(%esp)
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; NORMAL-NEXT: movl $2, 4(%esp)
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; NORMAL-NEXT: movl $1, (%esp)
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test1() {
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entry:
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call void @good(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; We're optimizing for code size, so we should get pushes for x86,
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; even though there is a reserved call frame.
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; Make sure we don't touch x86-64
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; NORMAL-LABEL: test1b:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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; X64-LABEL: test1b:
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; X64: movl $1, %ecx
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; X64-NEXT: movl $2, %edx
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; X64-NEXT: movl $3, %r8d
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; X64-NEXT: movl $4, %r9d
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; X64-NEXT: callq good
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define void @test1b() optsize {
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entry:
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call void @good(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; Same as above, but for minsize
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; NORMAL-LABEL: test1c:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test1c() minsize {
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entry:
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call void @good(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; If we have a reserved frame, we should have pushes
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; NORMAL-LABEL: test2:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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define void @test2(i32 %k) {
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entry:
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%a = alloca i32, i32 %k
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call void @good(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; Again, we expect a sequence of 4 immediate pushes
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; Checks that we generate the right pushes for >8bit immediates
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; NORMAL-LABEL: test2b:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: pushl $4096
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; NORMAL-NEXT: pushl $3072
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; NORMAL-NEXT: pushl $2048
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; NORMAL-NEXT: pushl $1024
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test2b() optsize {
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entry:
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call void @good(i32 1024, i32 2048, i32 3072, i32 4096)
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ret void
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}
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; The first push should push a register
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; NORMAL-LABEL: test3:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl %e{{..}}
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test3(i32 %k) optsize {
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entry:
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%f = add i32 %k, 1
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call void @good(i32 %f, i32 2, i32 3, i32 4)
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ret void
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}
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; We don't support weird calling conventions
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; NORMAL-LABEL: test4:
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; NORMAL: subl $12, %esp
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; NORMAL-NEXT: movl $4, 8(%esp)
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; NORMAL-NEXT: movl $3, 4(%esp)
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; NORMAL-NEXT: movl $1, (%esp)
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; NORMAL-NEXT: movl $2, %eax
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $12, %esp
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define void @test4() optsize {
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entry:
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call void @inreg(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; When there is no reserved call frame, check that additional alignment
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; is added when the pushes don't add up to the required alignment.
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; ALIGNED-LABEL: test5:
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; ALIGNED: subl $16, %esp
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; ALIGNED-NEXT: pushl $4
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; ALIGNED-NEXT: pushl $3
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; ALIGNED-NEXT: pushl $2
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; ALIGNED-NEXT: pushl $1
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; ALIGNED-NEXT: call
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define void @test5(i32 %k) {
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entry:
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%a = alloca i32, i32 %k
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call void @good(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; When the alignment adds up, do the transformation
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; ALIGNED-LABEL: test5b:
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; ALIGNED: pushl $8
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; ALIGNED-NEXT: pushl $7
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; ALIGNED-NEXT: pushl $6
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; ALIGNED-NEXT: pushl $5
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; ALIGNED-NEXT: pushl $4
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; ALIGNED-NEXT: pushl $3
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; ALIGNED-NEXT: pushl $2
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; ALIGNED-NEXT: pushl $1
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; ALIGNED-NEXT: call
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define void @test5b() optsize {
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entry:
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call void @eightparams(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8)
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ret void
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}
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; When having to compensate for the alignment isn't worth it,
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; don't use pushes.
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; ALIGNED-LABEL: test5c:
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; ALIGNED: movl $1, (%esp)
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; ALIGNED-NEXT: call
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define void @test5c() optsize {
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entry:
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call void @oneparam(i32 1)
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ret void
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}
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; Check that pushing the addresses of globals (Or generally, things that
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; aren't exactly immediates) isn't broken.
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; Fixes PR21878.
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; NORMAL-LABEL: test6:
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; NORMAL: pushl $_ext
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; NORMAL-NEXT: call
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declare void @f(i8*)
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@ext = external constant i8
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define void @test6() {
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call void @f(i8* @ext)
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br label %bb
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bb:
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alloca i32
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ret void
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}
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; Check that we fold simple cases into the push
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; NORMAL-LABEL: test7:
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; NORMAL-NOT: subl {{.*}} %esp
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; NORMAL: movl 4(%esp), [[EAX:%e..]]
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; NORMAL-NEXT: pushl $4
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; NORMAL-NEXT: pushl ([[EAX]])
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test7(i32* %ptr) optsize {
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entry:
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%val = load i32, i32* %ptr
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call void @good(i32 1, i32 2, i32 %val, i32 4)
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ret void
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}
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; Fold stack-relative loads into the push, with correct offset
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; In particular, at the second push, %b was at 12(%esp) and
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; %a wast at 8(%esp), but the second push bumped %esp, so %a
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; is now it at 12(%esp)
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; NORMAL-LABEL: test8:
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl 12(%esp)
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; NORMAL-NEXT: pushl 12(%esp)
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test8(i32 %a, i32 %b) optsize {
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entry:
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call void @good(i32 1, i32 %a, i32 %b, i32 4)
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ret void
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}
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; If one function is using push instructions, and the other isn't
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; (because it has frame-index references), then we must resolve
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; these references correctly.
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; NORMAL-LABEL: test9:
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; NORMAL-NOT: leal (%esp),
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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; NORMAL-NEXT: subl $16, %esp
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; NORMAL-NEXT: leal 16(%esp), [[EAX:%e..]]
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; NORMAL-NEXT: movl [[EAX]], 12(%esp)
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; NORMAL-NEXT: movl $7, 8(%esp)
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; NORMAL-NEXT: movl $6, 4(%esp)
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; NORMAL-NEXT: movl $5, (%esp)
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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define void @test9() optsize {
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entry:
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%p = alloca i32, align 4
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call void @good(i32 1, i32 2, i32 3, i32 4)
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%0 = ptrtoint i32* %p to i32
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call void @good(i32 5, i32 6, i32 7, i32 %0)
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ret void
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}
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; We can end up with an indirect call which gets reloaded on the spot.
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; Make sure we reference the correct stack slot - we spill into (%esp)
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; and reload from 16(%esp) due to the pushes.
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; NORMAL-LABEL: test10:
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; NORMAL: movl $_good, [[ALLOC:.*]]
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; NORMAL-NEXT: movl [[ALLOC]], [[EAX:%e..]]
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; NORMAL-NEXT: movl [[EAX]], (%esp) # 4-byte Spill
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; NORMAL: nop
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: calll *16(%esp)
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; NORMAL-NEXT: addl $16, %esp
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define void @test10() optsize {
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%stack_fptr = alloca void (i32, i32, i32, i32)*
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store void (i32, i32, i32, i32)* @good, void (i32, i32, i32, i32)** %stack_fptr
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%good_ptr = load volatile void (i32, i32, i32, i32)*, void (i32, i32, i32, i32)** %stack_fptr
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call void asm sideeffect "nop", "~{ax},~{bx},~{cx},~{dx},~{bp},~{si},~{di}"()
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call void (i32, i32, i32, i32)* %good_ptr(i32 1, i32 2, i32 3, i32 4)
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ret void
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}
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; We can't fold the load from the global into the push because of
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; interference from the store
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; NORMAL-LABEL: test11:
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; NORMAL: movl _the_global, [[EAX:%e..]]
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; NORMAL-NEXT: movl $42, _the_global
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; NORMAL-NEXT: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl [[EAX]]
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; NORMAL-NEXT: call
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; NORMAL-NEXT: addl $16, %esp
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@the_global = external global i32
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define void @test11() optsize {
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%myload = load i32, i32* @the_global
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store i32 42, i32* @the_global
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call void @good(i32 %myload, i32 2, i32 3, i32 4)
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ret void
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}
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; Converting one mov into a push isn't worth it when
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; doing so forces too much overhead for other calls.
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; NORMAL-LABEL: test12:
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; NORMAL: subl $16, %esp
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; NORMAL-NEXT: movl $4, 8(%esp)
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; NORMAL-NEXT: movl $3, 4(%esp)
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; NORMAL-NEXT: movl $1, (%esp)
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; NORMAL-NEXT: movl $2, %eax
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; NORMAL-NEXT: calll _inreg
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; NORMAL-NEXT: movl $8, 12(%esp)
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; NORMAL-NEXT: movl $7, 8(%esp)
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; NORMAL-NEXT: movl $6, 4(%esp)
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; NORMAL-NEXT: movl $5, (%esp)
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; NORMAL-NEXT: calll _good
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; NORMAL-NEXT: movl $12, 8(%esp)
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; NORMAL-NEXT: movl $11, 4(%esp)
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; NORMAL-NEXT: movl $9, (%esp)
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; NORMAL-NEXT: movl $10, %eax
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; NORMAL-NEXT: calll _inreg
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; NORMAL-NEXT: addl $16, %esp
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define void @test12() optsize {
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entry:
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call void @inreg(i32 1, i32 2, i32 3, i32 4)
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call void @good(i32 5, i32 6, i32 7, i32 8)
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call void @inreg(i32 9, i32 10, i32 11, i32 12)
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ret void
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}
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; But if the gains outweigh the overhead, we should do it
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; NORMAL-LABEL: test12b:
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; NORMAL: pushl $4
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; NORMAL-NEXT: pushl $3
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; NORMAL-NEXT: pushl $2
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; NORMAL-NEXT: pushl $1
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; NORMAL-NEXT: calll _good
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; NORMAL-NEXT: addl $16, %esp
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; NORMAL-NEXT: subl $12, %esp
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; NORMAL-NEXT: movl $8, 8(%esp)
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; NORMAL-NEXT: movl $7, 4(%esp)
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; NORMAL-NEXT: movl $5, (%esp)
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; NORMAL-NEXT: movl $6, %eax
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; NORMAL-NEXT: calll _inreg
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; NORMAL-NEXT: addl $12, %esp
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; NORMAL-NEXT: pushl $12
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; NORMAL-NEXT: pushl $11
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; NORMAL-NEXT: pushl $10
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; NORMAL-NEXT: pushl $9
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; NORMAL-NEXT: calll _good
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; NORMAL-NEXT: addl $16, %esp
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define void @test12b() optsize {
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entry:
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call void @good(i32 1, i32 2, i32 3, i32 4)
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call void @inreg(i32 5, i32 6, i32 7, i32 8)
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call void @good(i32 9, i32 10, i32 11, i32 12)
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ret void
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}
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