1 ; RUN: llvm-dis < %s.bc| FileCheck %s
\r
3 ; aggregateOperations.3.2.ll.bc was generated by passing this file to llvm-as-3.2.
\r
4 ; The test checks that LLVM does not misread instructions with aggregate operands
\r
5 ; in older bitcode files.
\r
7 define void @extractvalue([4 x i8] %x1, [4 x [4 x i8]] %x2, {{i32, float}} %x3){
\r
9 ; CHECK: %res1 = extractvalue [4 x i8] %x1, 0
\r
10 %res1 = extractvalue [4 x i8] %x1, 0
\r
12 ; CHECK-NEXT: %res2 = extractvalue [4 x [4 x i8]] %x2, 1
\r
13 %res2 = extractvalue [4 x [4 x i8 ]] %x2, 1
\r
15 ; CHECK-NEXT: %res3 = extractvalue [4 x [4 x i8]] %x2, 0, 1
\r
16 %res3 = extractvalue [4 x [4 x i8 ]] %x2, 0, 1
\r
18 ; CHECK-NEXT: %res4 = extractvalue { { i32, float } } %x3, 0, 1
\r
19 %res4 = extractvalue {{i32, float}} %x3, 0, 1
\r
24 define void @insertvalue([4 x [4 x i8 ]] %x1){
\r
26 ; CHECK: %res1 = insertvalue [4 x [4 x i8]] %x1, i8 0, 0, 0
\r
27 %res1 = insertvalue [4 x [4 x i8 ]] %x1, i8 0, 0, 0
\r
29 ; CHECK-NEXT: %res2 = insertvalue [4 x [4 x i8]] undef, i8 0, 0, 0
\r
30 %res2 = insertvalue [4 x [4 x i8 ]] undef, i8 0, 0, 0
\r