forked from OSchip/llvm-project
224 lines
4.6 KiB
C++
224 lines
4.6 KiB
C++
// RUN: %clang_analyze_cc1 -analyzer-checker=core,optin.cplusplus.VirtualCall \
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// RUN: -analyzer-checker=debug.ExprInspection \
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// RUN: -std=c++11 -verify=impure %s
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// RUN: %clang_analyze_cc1 -analyzer-checker=core,cplusplus.PureVirtualCall \
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// RUN: -analyzer-checker=debug.ExprInspection \
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// RUN: -std=c++11 -verify=pure -std=c++11 %s
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// RUN: %clang_analyze_cc1 -analyzer-checker=core,optin.cplusplus.VirtualCall \
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// RUN: -analyzer-config \
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// RUN: optin.cplusplus.VirtualCall:PureOnly=true \
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// RUN: -analyzer-checker=debug.ExprInspection \
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// RUN: -std=c++11 -verify=none %s
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// RUN: %clang_analyze_cc1 -analyzer-checker=core,cplusplus.PureVirtualCall \
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// RUN: -analyzer-checker=optin.cplusplus.VirtualCall \
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// RUN: -analyzer-checker=debug.ExprInspection \
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// RUN: -std=c++11 -verify=pure,impure -std=c++11 %s
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// RUN: %clang_analyze_cc1 -analyzer-checker=core,cplusplus.PureVirtualCall \
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// RUN: -analyzer-checker=optin.cplusplus.VirtualCall \
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// RUN: -analyzer-config \
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// RUN: optin.cplusplus.VirtualCall:PureOnly=true \
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// RUN: -analyzer-checker=debug.ExprInspection \
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// RUN: -std=c++11 -verify=pure %s
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// We expect no diagnostics when all checks are disabled.
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// none-no-diagnostics
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#include "virtualcall.h"
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void clang_analyzer_warnIfReached();
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class A {
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public:
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A();
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~A(){};
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virtual int foo() = 0;
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virtual void bar() = 0;
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void f() {
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foo(); // pure-warning{{Call to pure virtual method 'A::foo' during construction has undefined behavior}}
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clang_analyzer_warnIfReached(); // no-warning
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}
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};
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A::A() {
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f();
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}
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class B {
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public:
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B() {
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foo(); // impure-warning {{Call to virtual method 'B::foo' during construction bypasses virtual dispatch}}
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}
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~B();
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virtual int foo();
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virtual void bar() {
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foo(); // impure-warning {{Call to virtual method 'B::foo' during destruction bypasses virtual dispatch}}
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}
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};
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B::~B() {
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this->B::foo(); // no-warning
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this->B::bar();
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this->foo(); // impure-warning {{Call to virtual method 'B::foo' during destruction bypasses virtual dispatch}}
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}
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class C : public B {
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public:
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C();
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~C();
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virtual int foo();
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void f(int i);
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};
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C::C() {
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f(foo()); // impure-warning {{Call to virtual method 'C::foo' during construction bypasses virtual dispatch}}
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}
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class D : public B {
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public:
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D() {
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foo(); // no-warning
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}
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~D() { bar(); }
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int foo() final;
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void bar() final { foo(); } // no-warning
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};
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class E final : public B {
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public:
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E() {
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foo(); // no-warning
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}
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~E() { bar(); }
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int foo() override;
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};
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class F {
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public:
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F() {
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void (F::*ptr)() = &F::foo;
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(this->*ptr)();
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}
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void foo();
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};
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class G {
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public:
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G() {}
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virtual void bar();
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void foo() {
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bar(); // no warning
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}
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};
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class H {
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public:
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H() : initState(0) { init(); }
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int initState;
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virtual void f() const;
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void init() {
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if (initState)
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f(); // no warning
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}
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H(int i) {
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G g;
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g.foo();
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g.bar(); // no warning
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f(); // impure-warning {{Call to virtual method 'H::f' during construction bypasses virtual dispatch}}
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H &h = *this;
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h.f(); // impure-warning {{Call to virtual method 'H::f' during construction bypasses virtual dispatch}}
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}
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};
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class X {
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public:
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X() {
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g(); // impure-warning {{Call to virtual method 'X::g' during construction bypasses virtual dispatch}}
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}
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X(int i) {
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if (i > 0) {
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X x(i - 1);
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x.g(); // no warning
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}
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g(); // impure-warning {{Call to virtual method 'X::g' during construction bypasses virtual dispatch}}
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}
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virtual void g();
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};
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class M;
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class N {
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public:
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virtual void virtualMethod();
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void callFooOfM(M *);
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};
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class M {
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public:
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M() {
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N n;
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n.virtualMethod(); // no warning
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n.callFooOfM(this);
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}
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virtual void foo();
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};
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void N::callFooOfM(M *m) {
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m->foo(); // impure-warning {{Call to virtual method 'M::foo' during construction bypasses virtual dispatch}}
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}
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class Y {
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public:
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virtual void foobar();
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void fooY() {
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F f1;
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foobar(); // impure-warning {{Call to virtual method 'Y::foobar' during construction bypasses virtual dispatch}}
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}
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Y() { fooY(); }
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};
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int main() {
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B b;
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C c;
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D d;
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E e;
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F f;
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G g;
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H h;
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H h1(1);
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X x;
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X x1(1);
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M m;
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Y *y = new Y;
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delete y;
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header::Z z;
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}
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namespace PR34451 {
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struct a {
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void b() {
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a c[1];
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c->b();
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}
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};
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class e {
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public:
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void b() const;
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};
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class c {
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void m_fn2() const;
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e d[];
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};
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void c::m_fn2() const { d->b(); }
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}
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