forked from OSchip/llvm-project
464 lines
13 KiB
C++
464 lines
13 KiB
C++
// RUN: %clang_analyze_cc1 -std=c++11 %s \
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// RUN: -analyzer-checker=core \
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// RUN: -analyzer-checker=cplusplus.NewDelete \
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// RUN: -analyzer-checker=cplusplus.PlacementNew \
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// RUN: -analyzer-output=text -verify \
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// RUN: -triple x86_64-unknown-linux-gnu
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#include "Inputs/system-header-simulator-cxx.h"
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void f() {
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short s; // expected-note {{'s' declared without an initial value}}
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long *lp = ::new (&s) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 3 {{}}
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(void)lp;
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}
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namespace testArrayNew {
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void f() {
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short s; // expected-note {{'s' declared without an initial value}}
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char *buf = ::new (&s) char[8]; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 3 {{}}
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(void)buf;
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}
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} // namespace testArrayNew
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namespace testBufferInOtherFun {
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void f(void *place) {
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long *lp = ::new (place) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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void g() {
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short buf; // expected-note {{'buf' declared without an initial value}}
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f(&buf); // expected-note 2 {{}}
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}
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} // namespace testBufferInOtherFun
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namespace testArrayBuffer {
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void f(void *place) {
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long *lp = ::new (place) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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void g() {
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char buf[2]; // expected-note {{'buf' initialized here}}
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f(&buf); // expected-note 2 {{}}
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}
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} // namespace testArrayBuffer
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namespace testGlobalPtrAsPlace {
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void *gptr = nullptr;
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short gs;
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void f() {
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gptr = &gs; // expected-note {{Value assigned to 'gptr'}}
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}
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void g() {
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f(); // expected-note 2 {{}}
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long *lp = ::new (gptr) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testGlobalPtrAsPlace
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namespace testRvalue {
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short gs;
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void *f() {
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return &gs;
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}
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void g() {
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long *lp = ::new (f()) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testRvalue
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namespace testNoWarning {
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void *f();
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void g() {
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long *lp = ::new (f()) long;
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(void)lp;
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}
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} // namespace testNoWarning
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namespace testPtrToArrayAsPlace {
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void f() {
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//char *st = new char [8];
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char buf[3]; // expected-note {{'buf' initialized here}}
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void *st = buf; // expected-note {{'st' initialized here}}
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long *lp = ::new (st) long; // expected-warning{{Storage provided to placement new is only 3 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testPtrToArrayAsPlace
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namespace testPtrToArrayWithOffsetAsPlace {
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void f() {
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int buf[3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf + 2) long; // expected-warning{{Storage provided to placement new is only 4 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testPtrToArrayWithOffsetAsPlace
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namespace testZeroSize {
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void f() {
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int buf[3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf + 3) long; // expected-warning{{Storage provided to placement new is only 0 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testZeroSize
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namespace testNegativeSize {
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void f() {
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int buf[3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf + 4) long; // expected-warning{{Storage provided to placement new is only -4 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testNegativeSize
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namespace testHeapAllocatedBuffer {
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void g2() {
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char *buf = new char[2]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testHeapAllocatedBuffer
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namespace testMultiDimensionalArray {
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void f() {
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char buf[2][3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf) long; // expected-warning{{Storage provided to placement new is only 6 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testMultiDimensionalArray
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namespace testMultiDimensionalArray2 {
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void f() {
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char buf[2][3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (buf + 1) long; // expected-warning{{Storage provided to placement new is only 3 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testMultiDimensionalArray2
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namespace testMultiDimensionalArray3 {
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void f() {
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char buf[2][3]; // expected-note {{'buf' initialized here}}
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long *lp = ::new (&buf[1][1]) long; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)lp;
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}
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} // namespace testMultiDimensionalArray3
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namespace testHierarchy {
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struct Base {
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char a[2];
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};
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struct Derived : Base {
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char x[2];
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int y;
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};
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void f() {
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Base b; // expected-note {{'b' initialized here}}
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Derived *dp = ::new (&b) Derived; // expected-warning{{Storage provided to placement new is only 2 bytes, whereas the allocated type requires 8 bytes}} expected-note 1 {{}}
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(void)dp;
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}
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} // namespace testHierarchy
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namespace testArrayTypesAllocation {
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void f1() {
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struct S {
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short a;
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};
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// bad (not enough space).
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const unsigned N = 32;
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alignas(S) unsigned char buffer1[sizeof(S) * N]; // expected-note {{'buffer1' initialized here}}
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::new (buffer1) S[N]; // expected-warning{{Storage provided to placement new is only 64 bytes, whereas the allocated array type requires more space for internal needs}} expected-note 1 {{}}
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}
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void f2() {
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struct S {
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short a;
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};
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// maybe ok but we need to warn.
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const unsigned N = 32;
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alignas(S) unsigned char buffer2[sizeof(S) * N + sizeof(int)]; // expected-note {{'buffer2' initialized here}}
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::new (buffer2) S[N]; // expected-warning{{68 bytes is possibly not enough for array allocation which requires 64 bytes. Current overhead requires the size of 4 bytes}} expected-note 1 {{}}
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}
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} // namespace testArrayTypesAllocation
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namespace testStructAlign {
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void f1() {
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struct X {
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char a[9];
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad (struct X is aligned to char).
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::new (&Xi.a) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f2() {
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struct X {
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char a;
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char b;
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long c;
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} Xi;
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// ok (struct X is aligned to long).
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::new (&Xi.a) long;
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}
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void f3() {
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struct X {
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char a;
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char b;
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long c;
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad (struct X is aligned to long but field 'b' is aligned to 1 because of its offset)
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::new (&Xi.b) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f4() {
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struct X {
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char a;
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struct alignas(alignof(short)) Y {
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char b;
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char c;
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} y;
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long d;
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad. 'b' is aligned to short
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::new (&Xi.y.b) long; // expected-warning{{Storage type is aligned to 2 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f5() {
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short b[10]; // expected-note {{'b' initialized here}}
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::new (&b) long; // expected-warning{{Storage type is aligned to 2 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f6() {
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short b[10]; // expected-note {{'b' initialized here}}
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// bad (same as previous but checks ElementRegion case)
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::new (&b[0]) long; // expected-warning{{Storage type is aligned to 2 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f7() {
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alignas(alignof(long)) short b[10];
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// ok. aligned to long(ok). offset 4*2(ok)
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::new (&b[4]) long;
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}
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void f8() {
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alignas(alignof(long)) short b[10]; // expected-note {{'b' initialized here}}
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// ok. aligned to long(ok). offset 3*2(ok)
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::new (&b[3]) long; // expected-warning{{Storage type is aligned to 6 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f9() {
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struct X {
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char a;
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alignas(alignof(long)) char b[20];
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} Xi; // expected-note {{'Xi' initialized here}}
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// ok. aligned to long(ok). offset 8*1(ok)
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::new (&Xi.b[8]) long;
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// bad. aligned to long(ok). offset 1*1(ok)
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::new (&Xi.b[1]) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f10() {
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struct X {
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char a[8];
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alignas(2) char b;
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad (struct X is aligned to 2).
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::new (&Xi.a) long; // expected-warning{{Storage type is aligned to 2 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void f11() {
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struct X {
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char a;
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char b;
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struct Y {
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long c;
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} d;
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} Xi;
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// ok (struct X is aligned to long).
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::new (&Xi.a) long;
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}
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void f12() {
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struct alignas(alignof(long)) X {
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char a;
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char b;
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} Xi;
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// ok (struct X is aligned to long).
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::new (&Xi.a) long;
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}
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void test13() {
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struct Y {
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char a[10];
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};
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struct X {
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Y b[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad. X,A are aligned to 'char'
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::new (&Xi.b[0].a) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void test14() {
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struct Y {
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char a[10];
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};
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struct alignas(alignof(long)) X {
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Y b[10];
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} Xi;
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// ok. X is aligned to 'long' and field 'a' goes with zero offset
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::new (&Xi.b[0].a) long;
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}
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void test15() {
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struct alignas(alignof(long)) Y {
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char a[10];
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};
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struct X {
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Y b[10];
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} Xi;
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// ok. X is aligned to 'long' because it contains struct 'Y' which is aligned to 'long'
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::new (&Xi.b[0].a) long;
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}
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void test16() {
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struct alignas(alignof(long)) Y {
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char p;
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char a[10];
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};
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struct X {
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Y b[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad. aligned to long(ok). offset 1(bad)
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::new (&Xi.b[0].a) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void test17() {
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struct alignas(alignof(long)) Y {
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char p;
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char a[10];
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};
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struct X {
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Y b[10];
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} Xi;
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// ok. aligned to long(ok). offset 1+7*1(ok)
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::new (&Xi.b[0].a[7]) long;
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}
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void test18() {
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struct Y {
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char p;
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alignas(alignof(long)) char a[10];
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};
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struct X {
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Y b[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// ok. aligned to long(ok). offset 8*1(ok)
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::new (&Xi.b[0].a[8]) long;
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// bad. aligned to long(ok). offset 1(bad)
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::new (&Xi.b[0].a[1]) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void test19() {
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struct Z {
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char p;
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char c[10];
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};
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struct Y {
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char p;
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Z b[10];
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};
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struct X {
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Y a[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// bad. all structures X,Y,Z are aligned to char
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::new (&Xi.a[1].b[1].c) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void test20() {
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struct Z {
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char p;
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alignas(alignof(long)) char c[10];
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};
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struct Y {
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char p;
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Z b[10];
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};
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struct X {
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Y a[10];
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} Xi;
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// ok. field 'c' is aligned to 'long'
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::new (&Xi.a[1].b[1].c) long;
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}
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void test21() {
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struct Z {
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char p;
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char c[10];
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};
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struct Y {
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char p;
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Z b[10];
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};
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struct alignas(alignof(long)) X {
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Y a[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// ok. aligned to long(ok). offset 1+7*1(ok)
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::new (&Xi.a[0].b[0].c[7]) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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void test22() {
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struct alignas(alignof(long)) Y {
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char p;
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char a[10][10];
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};
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struct X {
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Y b[10];
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} Xi; // expected-note {{'Xi' initialized here}}
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// ok. aligned to long(ok). offset ok. 1(field 'a' offset) + 0*10(index '0' * first dimension size '10') + 7*1(index '7')
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::new (&Xi.b[0].a[0][7]) long;
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// ok. aligned to long(ok). offset ok. 1(field 'a' offset) + 1*10(index '1' * first dimension size '10') + 5*1(index '5')
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::new (&Xi.b[0].a[1][5]) long;
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// bad. aligned to long(ok). offset ok. 1(field 'a' offset) + 1*10(index '1' * first dimension size '10') + 6*1(index '5')
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::new (&Xi.b[0].a[1][6]) long; // expected-warning{{Storage type is aligned to 1 bytes but allocated type is aligned to 8 bytes}} expected-note 1 {{}}
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}
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} // namespace testStructAlign
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