1%intlist = type { %intlist*, i32 } 2 3 4%Ty1 = type { %Ty2* } 5%Ty2 = type opaque 6 7%VecSize = type { <10 x i32> } 8 9@GVTy1 = global %Ty1* null 10@GVTy2 = external global %Ty2* 11 12 13@MyVar = global i32 4 14@MyIntList = external global %intlist 15@AConst = constant i32 1234 16 17;; Intern in both testlink[12].ll 18@Intern1 = internal constant i32 52 19 20@Use2Intern1 = global i32* @Intern1 21 22;; Intern in one but not in other 23@Intern2 = constant i32 12345 24 25@MyIntListPtr = constant { %intlist* } { %intlist* @MyIntList } 26@MyVarPtr = linkonce global { i32* } { i32* @MyVar } 27@0 = constant i32 412 28 29; Provides definition of Struct1 and of S1GV. 30%Struct1 = type { i32 } 31@S1GV = global %Struct1* null 32 33define i32 @foo(i32 %blah) { 34 store i32 %blah, i32* @MyVar 35 %idx = getelementptr %intlist, %intlist* @MyIntList, i64 0, i32 1 36 store i32 12, i32* %idx 37 %ack = load i32, i32* @0 38 %fzo = add i32 %ack, %blah 39 ret i32 %fzo 40} 41 42declare void @unimp(float, double) 43 44define internal void @testintern() { 45 ret void 46} 47 48define void @Testintern() { 49 ret void 50} 51 52define internal void @testIntern() { 53 ret void 54} 55 56define void @VecSizeCrash1(%VecSize) { 57 ret void 58} 59