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259 lines
5.4 KiB
259 lines
5.4 KiB
// RUN: %clang_analyze_cc1 -analyzer-checker=core,alpha.core,debug.ExprInspection -analyzer-store=region -verify -Wno-null-dereference -Wno-tautological-undefined-compare -analyzer-config eagerly-assume=false %s
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void clang_analyzer_eval(bool);
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typedef typeof(sizeof(int)) size_t;
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void malloc (size_t);
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void f1() {
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int const &i = 3;
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int b = i;
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int *p = 0;
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if (b != 3)
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*p = 1; // no-warning
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}
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char* ptr();
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char& ref();
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// These next two tests just shouldn't crash.
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char t1 () {
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ref() = 'c';
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return '0';
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}
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// just a sanity test, the same behavior as t1()
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char t2 () {
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*ptr() = 'c';
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return '0';
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}
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// Each of the tests below is repeated with pointers as well as references.
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// This is mostly a sanity check, but then again, both should work!
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char t3 () {
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char& r = ref();
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r = 'c'; // no-warning
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if (r) return r;
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return *(char*)0; // no-warning
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}
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char t4 () {
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char* p = ptr();
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*p = 'c'; // no-warning
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if (*p) return *p;
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return *(char*)0; // no-warning
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}
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char t5 (char& r) {
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r = 'c'; // no-warning
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if (r) return r;
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return *(char*)0; // no-warning
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}
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char t6 (char* p) {
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*p = 'c'; // no-warning
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if (*p) return *p;
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return *(char*)0; // no-warning
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}
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// PR13440 / <rdar://problem/11977113>
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// Test that the array-to-pointer decay works for array references as well.
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// More generally, when we want an lvalue for a reference field, we still need
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// to do one level of load.
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namespace PR13440 {
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typedef int T[1];
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struct S {
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T &x;
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int *m() { return x; }
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};
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struct S2 {
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int (&x)[1];
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int *m() { return x; }
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void testArrayToPointerDecayWithNonTypedValueRegion() {
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int *p = x;
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int *q = x;
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clang_analyzer_eval(p[0] == q[0]); // expected-warning{{TRUE}}
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}
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};
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void test() {
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int a[1];
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S s = { a };
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S2 s2 = { a };
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if (s.x != a) return;
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if (s2.x != a) return;
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a[0] = 42;
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clang_analyzer_eval(s.x[0] == 42); // expected-warning{{TRUE}}
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clang_analyzer_eval(s2.x[0] == 42); // expected-warning{{TRUE}}
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}
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}
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void testNullReference() {
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int *x = 0;
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int &y = *x; // expected-warning{{Dereference of null pointer}}
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y = 5;
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}
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void testRetroactiveNullReference(int *x) {
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// According to the C++ standard, there is no such thing as a
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// "null reference". So the 'if' statement ought to be dead code.
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// However, Clang (and other compilers) don't actually check that a pointer
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// value is non-null in the implementation of references, so it is possible
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// to produce a supposed "null reference" at runtime. The analyzer should
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// still warn when it can prove such errors.
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int &y = *x;
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if (x != 0)
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return;
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y = 5; // expected-warning{{Dereference of null pointer}}
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}
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namespace TestReferenceAddress {
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struct S { int &x; };
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S getS();
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S *getSP();
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void testReferenceAddress(int &x) {
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// FIXME: Move non-zero reference assumption out of RangeConstraintManager.cpp:422
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#ifdef ANALYZER_CM_Z3
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clang_analyzer_eval(&x != 0); // expected-warning{{UNKNOWN}}
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clang_analyzer_eval(&ref() != 0); // expected-warning{{UNKNOWN}}
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#else
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clang_analyzer_eval(&x != 0); // expected-warning{{TRUE}}
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clang_analyzer_eval(&ref() != 0); // expected-warning{{TRUE}}
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#endif
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#ifdef ANALYZER_CM_Z3
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clang_analyzer_eval(&getS().x != 0); // expected-warning{{UNKNOWN}}
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#else
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clang_analyzer_eval(&getS().x != 0); // expected-warning{{TRUE}}
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#endif
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#ifdef ANALYZER_CM_Z3
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clang_analyzer_eval(&getSP()->x != 0); // expected-warning{{UNKNOWN}}
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#else
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clang_analyzer_eval(&getSP()->x != 0); // expected-warning{{TRUE}}
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#endif
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}
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}
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void testFunctionPointerReturn(void *opaque) {
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typedef int &(*RefFn)();
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RefFn getRef = (RefFn)opaque;
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// Don't crash writing to or reading from this reference.
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int &x = getRef();
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x = 42;
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clang_analyzer_eval(x == 42); // expected-warning{{TRUE}}
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}
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int &testReturnNullReference() {
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int *x = 0;
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return *x; // expected-warning{{Returning null reference}}
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}
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char &refFromPointer() {
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return *ptr();
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}
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void testReturnReference() {
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clang_analyzer_eval(ptr() == 0); // expected-warning{{UNKNOWN}}
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clang_analyzer_eval(&refFromPointer() == 0); // expected-warning{{FALSE}}
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}
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void intRefParam(int &r) {
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;
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}
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void test(int *ptr) {
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clang_analyzer_eval(ptr == 0); // expected-warning{{UNKNOWN}}
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extern void use(int &ref);
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use(*ptr);
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clang_analyzer_eval(ptr == 0); // expected-warning{{FALSE}}
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}
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void testIntRefParam() {
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int i = 0;
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intRefParam(i); // no-warning
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}
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int refParam(int &byteIndex) {
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return byteIndex;
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}
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void testRefParam(int *p) {
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if (p)
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;
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refParam(*p); // expected-warning {{Forming reference to null pointer}}
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}
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int ptrRefParam(int *&byteIndex) {
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return *byteIndex; // expected-warning {{Dereference of null pointer}}
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}
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void testRefParam2() {
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int *p = 0;
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int *&rp = p;
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ptrRefParam(rp);
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}
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int *maybeNull() {
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extern bool coin();
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static int x;
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return coin() ? &x : 0;
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}
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void use(int &x) {
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x = 1; // no-warning
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}
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void testSuppression() {
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use(*maybeNull());
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}
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namespace rdar11212286 {
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class B{};
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B test() {
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B *x = 0;
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return *x; // expected-warning {{Forming reference to null pointer}}
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}
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B testif(B *x) {
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if (x)
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;
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return *x; // expected-warning {{Forming reference to null pointer}}
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}
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void idc(B *x) {
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if (x)
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;
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}
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B testidc(B *x) {
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idc(x);
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return *x; // no-warning
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}
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}
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namespace PR15694 {
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class C {
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bool bit : 1;
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template <class T> void bar(const T &obj) {}
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void foo() {
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bar(bit); // don't crash
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}
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};
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}
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