Test source: git
Comments: LLVM PR51669
Source: <stdin>
-- 1. NewPMDebugifyPass
-- 2. NewPMDebugifyPass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p1(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p2(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n3(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nuw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n4(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n5(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p6(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i8 %val, %iv
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %iv, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %iv.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i7(i7, i7, i7, i1, i7)
declare void @escape_outer.i7(i7, i7, i7, i1, i7)
define i7 @p7(i7 %val, i7 %start, i7 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i7 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i7 %iv, %extraoffset
%val.shifted = ashr i7 %val, %nbits
%val.shifted.iszero = icmp eq i7 %val.shifted, 0
%iv.next = add i7 %iv, 1
call void @escape_inner.i7(i7 %iv, i7 %nbits, i7 %val.shifted, i1 %val.shifted.iszero, i7 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i7 [ %iv, %loop ]
%nbits.res = phi i7 [ %nbits, %loop ]
%val.shifted.res = phi i7 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i7 [ %iv.next, %loop ]
call void @escape_outer.i7(i7 %iv.res, i7 %nbits.res, i7 %val.shifted.res, i1 %val.shifted.iszero.res, i7 %iv.next.res)
ret i7 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n8(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 2
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @t9(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.isnotzero = icmp ne i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.isnotzero, i8 %iv.next)
br i1 %val.shifted.isnotzero, label %loop, label %end
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.isnotzero.res = phi i1 [ %val.shifted.isnotzero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.isnotzero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n10(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.isnotzero = icmp ne i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.isnotzero, i8 %iv.next)
br i1 %val.shifted.isnotzero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.isnotzero.res = phi i1 [ %val.shifted.isnotzero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.isnotzero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n11(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %loop, label %end
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n12(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 1
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n13(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop.end ]
br label %loop.end
loop.end:
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop.end ]
%nbits.res = phi i8 [ %nbits, %loop.end ]
%val.shifted.res = phi i8 [ %val.shifted, %loop.end ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop.end ]
%iv.next.res = phi i8 [ %iv.next, %loop.end ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n14(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp ult i8 %val.shifted, 1
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @t15(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %extraoffset, %iv
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n16(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i8 %extraoffset, %iv
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n17(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%extraoffset = call i8 @gen.i8()
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n18(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%extraoffset = call i8 @gen.i8()
%nbits = sub nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n19(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop.preheader
loop.preheader:
%notiv = phi i8 [ 0, %entry ]
br label %loop
loop:
%iv = phi i8 [ %start, %loop.preheader ], [ %iv.next, %loop ]
%nbits = add nsw i8 %notiv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n20(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = add i8 0, 0
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n21(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 0, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n22(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%not.iv.next = add i8 %iv, 1
%iv.next = add i8 %iv, 1
%also.iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n23(i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val = call i8 @gen.i8()
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t24_nooffset_i1(i1 %val, i1 %start) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i1 %val, %iv
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %iv, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %iv.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t25_nooffset_i2(i2 %val, i2 %start) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i2 %val, %iv
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %iv, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %iv.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t26_nooffset_i3(i3 %val, i3 %start) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i3 %val, %iv
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %iv, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %iv.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t27_addnsw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t28_addnsw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t29_addnsw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t30_addnuw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t31_addnuw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t32_addnuw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t33_subnsw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t34_addnuw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t35_addnuw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n36(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p37(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p38(i8 %val.crude, i8 %start, i8 %extraoffset) {
entry:
%val = and i8 %val.crude, 127
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 3. ModuleToFunctionPassAdaptor
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p1(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p2(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n3(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nuw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n4(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n5(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p6(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i8 %val, %iv
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %iv, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %iv.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i7(i7, i7, i7, i1, i7)
declare void @escape_outer.i7(i7, i7, i7, i1, i7)
define i7 @p7(i7 %val, i7 %start, i7 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i7 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i7 %iv, %extraoffset
%val.shifted = ashr i7 %val, %nbits
%val.shifted.iszero = icmp eq i7 %val.shifted, 0
%iv.next = add i7 %iv, 1
call void @escape_inner.i7(i7 %iv, i7 %nbits, i7 %val.shifted, i1 %val.shifted.iszero, i7 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i7 [ %iv, %loop ]
%nbits.res = phi i7 [ %nbits, %loop ]
%val.shifted.res = phi i7 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i7 [ %iv.next, %loop ]
call void @escape_outer.i7(i7 %iv.res, i7 %nbits.res, i7 %val.shifted.res, i1 %val.shifted.iszero.res, i7 %iv.next.res)
ret i7 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n8(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 2
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @t9(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.isnotzero = icmp ne i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.isnotzero, i8 %iv.next)
br i1 %val.shifted.isnotzero, label %loop, label %end
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.isnotzero.res = phi i1 [ %val.shifted.isnotzero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.isnotzero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n10(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.isnotzero = icmp ne i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.isnotzero, i8 %iv.next)
br i1 %val.shifted.isnotzero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.isnotzero.res = phi i1 [ %val.shifted.isnotzero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.isnotzero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n11(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %loop, label %end
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n12(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 1
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n13(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop.end ]
br label %loop.end
loop.end:
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop.end ]
%nbits.res = phi i8 [ %nbits, %loop.end ]
%val.shifted.res = phi i8 [ %val.shifted, %loop.end ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop.end ]
%iv.next.res = phi i8 [ %iv.next, %loop.end ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n14(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp ult i8 %val.shifted, 1
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @t15(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %extraoffset, %iv
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n16(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i8 %extraoffset, %iv
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n17(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%extraoffset = call i8 @gen.i8()
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n18(i8 %val, i8 %start) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%extraoffset = call i8 @gen.i8()
%nbits = sub nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n19(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop.preheader
loop.preheader:
%notiv = phi i8 [ 0, %entry ]
br label %loop
loop:
%iv = phi i8 [ %start, %loop.preheader ], [ %iv.next, %loop ]
%nbits = add nsw i8 %notiv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n20(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = add i8 0, 0
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n21(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 0, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n22(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%not.iv.next = add i8 %iv, 1
%iv.next = add i8 %iv, 1
%also.iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare i8 @gen.i8()
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n23(i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val = call i8 @gen.i8()
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t24_nooffset_i1(i1 %val, i1 %start) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i1 %val, %iv
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %iv, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %iv.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t25_nooffset_i2(i2 %val, i2 %start) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i2 %val, %iv
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %iv, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %iv.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t26_nooffset_i3(i3 %val, i3 %start) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%val.shifted = ashr i3 %val, %iv
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %iv, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %iv.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t27_addnsw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t28_addnsw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t29_addnsw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t30_addnuw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t31_addnuw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t32_addnuw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nuw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i1(i1, i1, i1, i1, i1)
declare void @escape_outer.i1(i1, i1, i1, i1, i1)
define i1 @t33_subnsw_i1(i1 %val, i1 %start, i1 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i1 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i1 %iv, %extraoffset
%val.shifted = ashr i1 %val, %nbits
%val.shifted.iszero = icmp eq i1 %val.shifted, 0
%iv.next = add i1 %iv, 1
call void @escape_inner.i1(i1 %iv, i1 %nbits, i1 %val.shifted, i1 %val.shifted.iszero, i1 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i1 [ %iv, %loop ]
%nbits.res = phi i1 [ %nbits, %loop ]
%val.shifted.res = phi i1 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i1 [ %iv.next, %loop ]
call void @escape_outer.i1(i1 %iv.res, i1 %nbits.res, i1 %val.shifted.res, i1 %val.shifted.iszero.res, i1 %iv.next.res)
ret i1 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i2(i2, i2, i2, i1, i2)
declare void @escape_outer.i2(i2, i2, i2, i1, i2)
define i2 @t34_addnuw_i2(i2 %val, i2 %start, i2 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i2 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i2 %iv, %extraoffset
%val.shifted = ashr i2 %val, %nbits
%val.shifted.iszero = icmp eq i2 %val.shifted, 0
%iv.next = add i2 %iv, 1
call void @escape_inner.i2(i2 %iv, i2 %nbits, i2 %val.shifted, i1 %val.shifted.iszero, i2 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i2 [ %iv, %loop ]
%nbits.res = phi i2 [ %nbits, %loop ]
%val.shifted.res = phi i2 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i2 [ %iv.next, %loop ]
call void @escape_outer.i2(i2 %iv.res, i2 %nbits.res, i2 %val.shifted.res, i1 %val.shifted.iszero.res, i2 %iv.next.res)
ret i2 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner.i3(i3, i3, i3, i1, i3)
declare void @escape_outer.i3(i3, i3, i3, i1, i3)
define i3 @t35_addnuw_i3(i3 %val, i3 %start, i3 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i3 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = sub nsw i3 %iv, %extraoffset
%val.shifted = ashr i3 %val, %nbits
%val.shifted.iszero = icmp eq i3 %val.shifted, 0
%iv.next = add i3 %iv, 1
call void @escape_inner.i3(i3 %iv, i3 %nbits, i3 %val.shifted, i1 %val.shifted.iszero, i3 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i3 [ %iv, %loop ]
%nbits.res = phi i3 [ %nbits, %loop ]
%val.shifted.res = phi i3 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i3 [ %iv.next, %loop ]
call void @escape_outer.i3(i3 %iv.res, i3 %nbits.res, i3 %val.shifted.res, i1 %val.shifted.iszero.res, i3 %iv.next.res)
ret i3 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @n36(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p37(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p38(i8 %val.crude, i8 %start, i8 %extraoffset) {
entry:
%val = and i8 %val.crude, 127
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 1. FunctionToLoopPassAdaptor
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 2. PassManager<Function> : Skipping NOP
-- 3. LoopSimplifyPass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 4. LoopSimplifyPass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 5. LCSSAPass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 6. LCSSAPass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 7. PassManager<Function> : Skipping NOP
-- 8. LoopIdiomRecognizePass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation seems to be correct! (syntactically equal)
-- 9. LoopIdiomRecognizePass
----------------------------------------
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
br label %loop
loop:
%iv = phi i8 [ %start, %entry ], [ %iv.next, %loop ]
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%val.shifted.iszero = icmp eq i8 %val.shifted, 0
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %val.shifted.iszero, i8 %iv.next)
br i1 %val.shifted.iszero, label %end, label %loop
end:
%iv.res = phi i8 [ %iv, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %val.shifted.iszero, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
=>
declare void @escape_inner(i8, i8, i8, i1, i8)
declare void @escape_outer(i8, i8, i8, i1, i8)
define i8 @p0(i8 %val, i8 %start, i8 %extraoffset) {
entry:
%val.numleadingzeros = ctlz i8 %val, 0
%val.numactivebits = sub nsw nuw i8 8, %val.numleadingzeros
%#0 = sub i8 0, %extraoffset
%val.numactivebits.offset = add nsw i8 %val.numactivebits, %#0
%iv.final = smax i8 %val.numactivebits.offset, %start
%loop.backedgetakencount = sub nsw i8 %iv.final, %start
%loop.tripcount = add nsw nuw i8 %loop.backedgetakencount, 1
br label %loop
loop:
%loop.iv = phi i8 [ 0, %entry ], [ %loop.iv.next, %loop ]
%loop.iv.next = add nsw nuw i8 %loop.iv, 1
%loop.ivcheck = icmp eq i8 %loop.iv.next, %loop.tripcount
%iv = add nsw i8 %loop.iv, %start
%nbits = add nsw i8 %iv, %extraoffset
%val.shifted = ashr i8 %val, %nbits
%iv.next = add i8 %iv, 1
call void @escape_inner(i8 %iv, i8 %nbits, i8 %val.shifted, i1 %loop.ivcheck, i8 %iv.next)
br i1 %loop.ivcheck, label %end, label %loop
end:
%iv.res = phi i8 [ %iv.final, %loop ]
%nbits.res = phi i8 [ %nbits, %loop ]
%val.shifted.res = phi i8 [ %val.shifted, %loop ]
%val.shifted.iszero.res = phi i1 [ %loop.ivcheck, %loop ]
%iv.next.res = phi i8 [ %iv.next, %loop ]
call void @escape_outer(i8 %iv.res, i8 %nbits.res, i8 %val.shifted.res, i1 %val.shifted.iszero.res, i8 %iv.next.res)
ret i8 %iv.res
}
Transformation doesn't verify! (unsound)
ERROR: Source is more defined than target
Example:
i8 %val = undef
i8 %start = #x7c (124)
i8 %extraoffset = #x84 (132, -124)
Source:
>> Jump to %loop
i8 %iv = #x7c (124)
i8 %nbits = #x00 (0)
i8 %val.shifted = #x00 (0) [based on undef value]
i1 %val.shifted.iszero = #x1 (1)
i8 %iv.next = #x7d (125)
void = function did not return!
SOURCE MEMORY STATE
===================
NON-LOCAL BLOCKS:
Block 0 > size: 0 align: 1 alloc type: 0 alive: false address: 0
Block 1 > size: 2 align: 1 alloc type: 0 alive: true address: 8
Target:
i8 %val.numleadingzeros = #x04 (4)
i8 %val.numactivebits = #x04 (4)
i8 %#0 = #x7c (124)
i8 %val.numactivebits.offset = poison
i8 %iv.final = poison
i8 %loop.backedgetakencount = poison
i8 %loop.tripcount = poison
>> Jump to %loop
i8 %loop.iv = #x00 (0)
i8 %loop.iv.next = #x01 (1)
i1 %loop.ivcheck = poison
i8 %iv = #x7c (124)
i8 %nbits = #x00 (0)
i8 %val.shifted = #x00 (0)
i8 %iv.next = #x7d (125)
void = function did not return!
Pass: LoopIdiomRecognizePass
Command line: '/home/nlopes/llvm/build/bin/opt' '-load=/home/nlopes/alive2/build/tv/tv.so' '-load-pass-plugin=/home/nlopes/alive2/build/tv/tv.so' '-tv-exit-on-error' '-passes=debugify,loop-idiom' '-mtriple=x86_64' '-mcpu=core-avx2' '-S' '-tv-smt-to=20000' '-tv-report-dir=/home/nlopes/alive2/build/logs' '-tv-smt-stats'
Wrote bitcode to: "/home/nlopes/alive2/build/logs/in_fyqsPyRT_Ltkg.bc"
------------------- SMT STATS -------------------
Num queries: 49
Num invalid: 0
Num skips: 0
Num trivial: 17 (25.8%)
Num timeout: 0 (0.0%)
Num errors: 0 (0.0%)
Num SAT: 41 (83.7%)
Num UNSAT: 8 (16.3%)
Alive2: Transform doesn't verify; aborting!
RUN: at line 2: /home/nlopes/alive2/build/opt-alive.sh -passes=debugify,loop-idiom -mtriple=x86_64 -mcpu=corei7 < /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll -S | /bitbucket/nlopes/llvm/build/bin/FileCheck --check-prefixes=CHECK,NOLZCNT /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll + /home/nlopes/alive2/build/opt-alive.sh -passes=debugify,loop-idiom -mtriple=x86_64 -mcpu=corei7 -S + /bitbucket/nlopes/llvm/build/bin/FileCheck --check-prefixes=CHECK,NOLZCNT /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll RUN: at line 3: /home/nlopes/alive2/build/opt-alive.sh -passes=debugify,loop-idiom -mtriple=x86_64 -mcpu=core-avx2 < /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll -S | /bitbucket/nlopes/llvm/build/bin/FileCheck --check-prefixes=CHECK,LZCNT /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll + /bitbucket/nlopes/llvm/build/bin/FileCheck --check-prefixes=CHECK,LZCNT /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll + /home/nlopes/alive2/build/opt-alive.sh -passes=debugify,loop-idiom -mtriple=x86_64 -mcpu=core-avx2 -S FileCheck error: '<stdin>' is empty. FileCheck command line: /bitbucket/nlopes/llvm/build/bin/FileCheck --check-prefixes=CHECK,LZCNT /bitbucket/nlopes/llvm/llvm/test/Transforms/LoopIdiom/X86/arithmetic-right-shift-until-zero.ll