forked from OSchip/llvm-project
345 lines
7.6 KiB
C
345 lines
7.6 KiB
C
// RUN: %clang_cc1 -emit-llvm -triple x86_64 -O3 -o %t.opt.ll %s \
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// RUN: -fdump-record-layouts > %t.dump.txt
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// RUN: FileCheck -check-prefix=CHECK-RECORD < %t.dump.txt %s
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// RUN: FileCheck -check-prefix=CHECK-OPT < %t.opt.ll %s
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/****/
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// Check that we don't read off the end a packed 24-bit structure.
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// PR6176
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// CHECK-RECORD: *** Dumping IRgen Record Layout
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// CHECK-RECORD: Record: RecordDecl{{.*}}s0
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// CHECK-RECORD: Layout: <CGRecordLayout
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// CHECK-RECORD: LLVMType:%struct.s0 = type { [3 x i8] }
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// CHECK-RECORD: IsZeroInitializable:1
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// CHECK-RECORD: BitFields:[
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// CHECK-RECORD: <CGBitFieldInfo Offset:0 Size:24 IsSigned:1 StorageSize:24 StorageOffset:0>
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struct __attribute((packed)) s0 {
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int f0 : 24;
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};
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struct s0 g0 = { 0xdeadbeef };
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int f0_load(struct s0 *a0) {
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int size_check[sizeof(struct s0) == 3 ? 1 : -1];
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return a0->f0;
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}
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int f0_store(struct s0 *a0) {
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return (a0->f0 = 1);
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}
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int f0_reload(struct s0 *a0) {
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return (a0->f0 += 1);
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}
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// CHECK-OPT-LABEL: define i64 @test_0()
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// CHECK-OPT: ret i64 1
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// CHECK-OPT: }
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unsigned long long test_0() {
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struct s0 g0 = { 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g0.f0;
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res ^= f0_load(&g0) ^ f0_store(&g0) ^ f0_reload(&g0);
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res ^= g0.f0;
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return res;
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}
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/****/
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// PR5591
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// CHECK-RECORD: *** Dumping IRgen Record Layout
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// CHECK-RECORD: Record: RecordDecl{{.*}}s1
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// CHECK-RECORD: Layout: <CGRecordLayout
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// CHECK-RECORD: LLVMType:%struct.s1 = type { [3 x i8] }
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// CHECK-RECORD: IsZeroInitializable:1
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// CHECK-RECORD: BitFields:[
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// CHECK-RECORD: <CGBitFieldInfo Offset:0 Size:10 IsSigned:1 StorageSize:24 StorageOffset:0>
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// CHECK-RECORD: <CGBitFieldInfo Offset:10 Size:10 IsSigned:1 StorageSize:24 StorageOffset:0>
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#pragma pack(push)
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#pragma pack(1)
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struct __attribute((packed)) s1 {
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signed f0 : 10;
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signed f1 : 10;
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};
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#pragma pack(pop)
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struct s1 g1 = { 0xdeadbeef, 0xdeadbeef };
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int f1_load(struct s1 *a0) {
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int size_check[sizeof(struct s1) == 3 ? 1 : -1];
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return a0->f1;
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}
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int f1_store(struct s1 *a0) {
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return (a0->f1 = 1234);
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}
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int f1_reload(struct s1 *a0) {
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return (a0->f1 += 1234);
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}
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// CHECK-OPT-LABEL: define i64 @test_1()
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// CHECK-OPT: ret i64 210
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// CHECK-OPT: }
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unsigned long long test_1() {
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struct s1 g1 = { 0xdeadbeef, 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g1.f0 ^ g1.f1;
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res ^= f1_load(&g1) ^ f1_store(&g1) ^ f1_reload(&g1);
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res ^= g1.f0 ^ g1.f1;
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return res;
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}
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/****/
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// Check that we don't access beyond the bounds of a union.
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//
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// PR5567
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// CHECK-RECORD: *** Dumping IRgen Record Layout
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// CHECK-RECORD: Record: RecordDecl{{.*}}u2
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// CHECK-RECORD: Layout: <CGRecordLayout
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// CHECK-RECORD: LLVMType:%union.u2 = type { i8 }
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// CHECK-RECORD: IsZeroInitializable:1
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// CHECK-RECORD: BitFields:[
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// CHECK-RECORD: <CGBitFieldInfo Offset:0 Size:3 IsSigned:0 StorageSize:8 StorageOffset:0>
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union __attribute__((packed)) u2 {
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unsigned long long f0 : 3;
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};
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union u2 g2 = { 0xdeadbeef };
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int f2_load(union u2 *a0) {
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return a0->f0;
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}
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int f2_store(union u2 *a0) {
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return (a0->f0 = 1234);
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}
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int f2_reload(union u2 *a0) {
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return (a0->f0 += 1234);
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}
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// CHECK-OPT-LABEL: define i64 @test_2()
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// CHECK-OPT: ret i64 2
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// CHECK-OPT: }
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unsigned long long test_2() {
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union u2 g2 = { 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g2.f0;
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res ^= f2_load(&g2) ^ f2_store(&g2) ^ f2_reload(&g2);
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res ^= g2.f0;
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return res;
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}
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/***/
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// PR5039
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struct s3 {
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long long f0 : 32;
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long long f1 : 32;
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};
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struct s3 g3 = { 0xdeadbeef, 0xdeadbeef };
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int f3_load(struct s3 *a0) {
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a0->f0 = 1;
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return a0->f0;
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}
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int f3_store(struct s3 *a0) {
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a0->f0 = 1;
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return (a0->f0 = 1234);
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}
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int f3_reload(struct s3 *a0) {
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a0->f0 = 1;
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return (a0->f0 += 1234);
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}
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// CHECK-OPT-LABEL: define i64 @test_3()
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// CHECK-OPT: ret i64 -559039940
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// CHECK-OPT: }
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unsigned long long test_3() {
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struct s3 g3 = { 0xdeadbeef, 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g3.f0 ^ g3.f1;
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res ^= f3_load(&g3) ^ f3_store(&g3) ^ f3_reload(&g3);
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res ^= g3.f0 ^ g3.f1;
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return res;
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}
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/***/
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// This is a case where the bitfield access will straddle an alignment boundary
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// of its underlying type.
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struct s4 {
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unsigned f0 : 16;
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unsigned f1 : 28 __attribute__ ((packed));
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};
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struct s4 g4 = { 0xdeadbeef, 0xdeadbeef };
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int f4_load(struct s4 *a0) {
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return a0->f0 ^ a0->f1;
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}
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int f4_store(struct s4 *a0) {
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return (a0->f0 = 1234) ^ (a0->f1 = 5678);
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}
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int f4_reload(struct s4 *a0) {
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return (a0->f0 += 1234) ^ (a0->f1 += 5678);
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}
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// CHECK-OPT-LABEL: define i64 @test_4()
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// CHECK-OPT: ret i64 4860
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// CHECK-OPT: }
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unsigned long long test_4() {
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struct s4 g4 = { 0xdeadbeef, 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g4.f0 ^ g4.f1;
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res ^= f4_load(&g4) ^ f4_store(&g4) ^ f4_reload(&g4);
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res ^= g4.f0 ^ g4.f1;
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return res;
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}
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/***/
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struct s5 {
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unsigned f0 : 2;
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_Bool f1 : 1;
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_Bool f2 : 1;
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};
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struct s5 g5 = { 0xdeadbeef, 0xdeadbeef };
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int f5_load(struct s5 *a0) {
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return a0->f0 ^ a0->f1;
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}
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int f5_store(struct s5 *a0) {
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return (a0->f0 = 0xF) ^ (a0->f1 = 0xF) ^ (a0->f2 = 0xF);
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}
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int f5_reload(struct s5 *a0) {
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return (a0->f0 += 0xF) ^ (a0->f1 += 0xF) ^ (a0->f2 += 0xF);
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}
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// CHECK-OPT-LABEL: define i64 @test_5()
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// CHECK-OPT: ret i64 2
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// CHECK-OPT: }
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unsigned long long test_5() {
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struct s5 g5 = { 0xdeadbeef, 0xdeadbeef, 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g5.f0 ^ g5.f1 ^ g5.f2;
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res ^= f5_load(&g5) ^ f5_store(&g5) ^ f5_reload(&g5);
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res ^= g5.f0 ^ g5.f1 ^ g5.f2;
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return res;
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}
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/***/
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struct s6 {
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unsigned f0 : 2;
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};
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struct s6 g6 = { 0xF };
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int f6_load(struct s6 *a0) {
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return a0->f0;
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}
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int f6_store(struct s6 *a0) {
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return a0->f0 = 0x0;
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}
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int f6_reload(struct s6 *a0) {
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return (a0->f0 += 0xF);
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}
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// CHECK-OPT-LABEL: define zeroext i1 @test_6()
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// CHECK-OPT: ret i1 true
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// CHECK-OPT: }
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_Bool test_6() {
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struct s6 g6 = { 0xF };
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unsigned long long res = 0;
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res ^= g6.f0;
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res ^= f6_load(&g6);
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res ^= g6.f0;
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return res;
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}
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/***/
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// Check that we compute the best alignment possible for each access.
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//
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// CHECK-RECORD: *** Dumping IRgen Record Layout
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// CHECK-RECORD: Record: RecordDecl{{.*}}s7
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// CHECK-RECORD: Layout: <CGRecordLayout
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// CHECK-RECORD: LLVMType:%struct.s7 = type { i32, i32, i32, i8, i32, [12 x i8] }
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// CHECK-RECORD: IsZeroInitializable:1
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// CHECK-RECORD: BitFields:[
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// CHECK-RECORD: <CGBitFieldInfo Offset:0 Size:5 IsSigned:1 StorageSize:8 StorageOffset:12>
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// CHECK-RECORD: <CGBitFieldInfo Offset:0 Size:29 IsSigned:1 StorageSize:32 StorageOffset:16>
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struct __attribute__((aligned(16))) s7 {
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int a, b, c;
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int f0 : 5;
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int f1 : 29;
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};
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int f7_load(struct s7 *a0) {
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return a0->f0;
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}
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/***/
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// This is a case where we narrow the access width immediately.
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struct __attribute__((packed)) s8 {
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char f0 : 4;
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char f1;
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int f2 : 4;
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char f3 : 4;
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};
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struct s8 g8 = { 0xF };
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int f8_load(struct s8 *a0) {
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return a0->f0 ^ a0 ->f2 ^ a0->f3;
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}
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int f8_store(struct s8 *a0) {
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return (a0->f0 = 0xFD) ^ (a0->f2 = 0xFD) ^ (a0->f3 = 0xFD);
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}
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int f8_reload(struct s8 *a0) {
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return (a0->f0 += 0xFD) ^ (a0->f2 += 0xFD) ^ (a0->f3 += 0xFD);
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}
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// CHECK-OPT-LABEL: define i32 @test_8()
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// CHECK-OPT: ret i32 -3
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// CHECK-OPT: }
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unsigned test_8() {
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struct s8 g8 = { 0xdeadbeef, 0xdeadbeef, 0xdeadbeef, 0xdeadbeef };
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unsigned long long res = 0;
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res ^= g8.f0 ^ g8.f2 ^ g8.f3;
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res ^= f8_load(&g8) ^ f8_store(&g8) ^ f8_reload(&g8);
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res ^= g8.f0 ^ g8.f2 ^ g8.f3;
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return res;
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}
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/***/
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// This is another case where we narrow the access width immediately.
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//
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// <rdar://problem/7893760>
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struct __attribute__((packed)) s9 {
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unsigned f0 : 7;
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unsigned f1 : 7;
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unsigned f2 : 7;
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unsigned f3 : 7;
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unsigned f4 : 7;
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unsigned f5 : 7;
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unsigned f6 : 7;
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unsigned f7 : 7;
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};
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int f9_load(struct s9 *a0) {
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return a0->f7;
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}
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