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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 - /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #if defined _WIN32 // TODO, see corresponding TODO in compilerplugins/clang/unusedfields. // expected-no-diagnostics #else #include <map> #include <memory> #include <vector> #include <ostream> #include <com/sun/star/uno/Any.hxx> #include <com/sun/star/uno/Sequence.hxx> #include <com/sun/star/uno/XInterface.hpp> #include <rtl/ref.hxx> struct Foo // expected-error@-1 {{read m_foo1 [loplugin:unusedfields]}} // expected-error@-2 {{outside m_foo1 [loplugin:unusedfields]}} { int m_foo1; }; struct Bar // expected-error@-1 {{read m_bar2 [loplugin:unusedfields]}} // expected-error@-2 {{read m_bar4 [loplugin:unusedfields]}} // expected-error@-3 {{read m_bar5 [loplugin:unusedfields]}} // expected-error@-4 {{read m_bar6 [loplugin:unusedfields]}} // expected-error@-5 {{read m_barfunctionpointer [loplugin:unusedfields]}} // expected-error@-6 {{read m_bar8 [loplugin:unusedfields]}} // expected-error@-7 {{read m_bar10 [loplugin:unusedfields]}} // expected-error@-8 {{read m_bar11 [loplugin:unusedfields]}} // expected-error@-9 {{write m_bar1 [loplugin:unusedfields]}} // expected-error@-10 {{write m_bar2 [loplugin:unusedfields]}} // expected-error@-11 {{write m_bar3 [loplugin:unusedfields]}} // expected-error@-12 {{write m_bar3b [loplugin:unusedfields]}} // expected-error@-13 {{write m_bar4 [loplugin:unusedfields]}} // expected-error@-14 {{write m_bar7 [loplugin:unusedfields]}} // expected-error@-15 {{write m_bar9 [loplugin:unusedfields]}} // expected-error@-16 {{write m_bar12 [loplugin:unusedfields]}} // expected-error@-17 {{outside-constructor m_bar2 [loplugin:unusedfields]}} // expected-error@-18 {{outside-constructor m_bar3 [loplugin:unusedfields]}} // expected-error@-19 {{outside-constructor m_bar3b [loplugin:unusedfields]}} // expected-error@-20 {{outside-constructor m_bar4 [loplugin:unusedfields]}} // expected-error@-21 {{outside-constructor m_bar5 [loplugin:unusedfields]}} // expected-error@-22 {{outside-constructor m_bar6 [loplugin:unusedfields]}} // expected-error@-23 {{outside-constructor m_bar7 [loplugin:unusedfields]}} // expected-error@-24 {{outside-constructor m_bar8 [loplugin:unusedfields]}} // expected-error@-25 {{outside-constructor m_bar9 [loplugin:unusedfields]}} // expected-error@-26 {{outside-constructor m_bar10 [loplugin:unusedfields]}} // expected-error@-27 {{outside-constructor m_bar11 [loplugin:unusedfields]}} // expected-error@-28 {{outside-constructor m_bar12 [loplugin:unusedfields]}} // expected-error@-29 {{outside-constructor m_barfunctionpointer [loplugin:unusedfie // expected-error@-30 {{outside m_barstream [loplugin:unusedfields]}} { int m_bar1; int m_bar2 = 1; int* m_bar3; int* m_bar3b; int m_bar4; void (*m_barfunctionpointer)(int&); int m_bar5; std::vector<int> m_bar6; int m_bar7[5]; int m_bar8; int m_barstream; sal_Int32 m_bar9; sal_Int32 m_bar10; css::uno::Any m_bar11; css::uno::Any m_bar12; // check that we see reads of fields like m_foo1 when referred to via constructor initializer Bar(Foo const & foo) : m_bar1(foo.m_foo1) {} // check that we don't see reads when inside copy/move constructor Bar(Bar const & other) { m_bar3 = other.m_bar3; } // check that we don't see reads when inside copy/move assignment operator Bar& operator=(Bar const & other) { m_bar3 = other.m_bar3; return *this; } // check that we DON'T see reads here int bar2() { return m_bar2; } // check that we DON'T see reads here void bar3() { m_bar3 = nullptr; m_bar3b = m_bar3 = nullptr; } // check that we see reads of field when passed to a function pointer // check that we see read of a field that is a function pointer void bar4() { m_barfunctionpointer(m_bar4); } // check that we see reads of a field when used in variable init void bar5() { int x = m_bar5; (void) x; } // check that we see reads of a field when used in ranged-for void bar6() { for (auto i : m_bar6) { (void)i; } } // check that we see don't see reads of array fields void bar7() { m_bar7[3] = 1; } // check that we see reads when a field is used in an array expression char bar8() { char tmp[5]; return tmp[m_bar8]; } // check that we don't see reads when calling operator>>= void bar9() { css::uno::Any any; any >>= m_bar9; } // check that we see don't see writes when calling operator<<= void bar10() { css::uno::Any any; any <<= m_bar10; (void)any; } // check that we see reads of the LHS when calling operator>>= void bar11() { int x; m_bar11 >>= x; } // check that we see writes of the LHS when calling operator<<= void bar12() { int x = 0; m_bar12 <<= x; } }; // check that we __dont__ see a read of m_barstream std::ostream& operator<<(std::ostream& s, Bar const & bar) { s << bar.m_barstream; return s; }; struct ReadOnly1 { ReadOnly1(int&); }; struct ReadOnlyAnalysis // expected-error@-1 {{read m_f2 [loplugin:unusedfields]}} // expected-error@-2 {{read m_f3 [loplugin:unusedfields]}} // expected-error@-3 {{read m_f5 [loplugin:unusedfields]}} // expected-error@-4 {{read m_f6 [loplugin:unusedfields]}} // expected-error@-5 {{write m_f2 [loplugin:unusedfields]}} // expected-error@-6 {{write m_f3 [loplugin:unusedfields]}} // expected-error@-7 {{write m_f4 [loplugin:unusedfields]}} // expected-error@-8 {{write m_f5 [loplugin:unusedfields]}} // expected-error@-9 {{write m_f6 [loplugin:unusedfields]}} // expected-error@-10 {{outside-constructor m_f2 [loplugin:unusedfields]}} // expected-error@-11 {{outside-constructor m_f3 [loplugin:unusedfields]}} // expected-error@-12 {{outside-constructor m_f4 [loplugin:unusedfields]}} // expected-error@-13 {{outside-constructor m_f5 [loplugin:unusedfields]}} // expected-error@-14 {{outside-constructor m_f6 [loplugin:unusedfields]}} { int m_f1; int m_f2; int m_f3; std::vector<int> m_f4; int m_f5; int m_f6; // check that we don't see a write of m_f1 ReadOnlyAnalysis() : m_f1(0) {} void method1(int&); // check that we see a write when we pass by non-const ref void method2() { method1(m_f2); } int& method3() { return m_f3; } void method4() { m_f4.push_back(1); } // check that we see a write when we pass by non-const ref void method5() { ReadOnly1 a(m_f5); } // check that we see a write when we pass by non-const ref void method6() { int& r = m_f6; r = 1; } }; struct ReadOnlyAnalysis2 // expected-error@-1 {{write m_r2f1 [loplugin:unusedfields]}} { int m_r2f1; }; ReadOnlyAnalysis2 global { 1 }; struct ReadOnlyAnalysis3 // expected-error@-1 {{read m_f1 [loplugin:unusedfields]}} // expected-error@-2 {{outside-constructor m_f1 [loplugin:unusedfields]}} { int m_f1; void func1() { if (m_f1) m_f1 = 1; } }; // Verify the special logic for container fields that only contains mutations that // add elements. struct ReadOnlyAnalysis4 // expected-error@-1 {{read m_readonly [loplugin:unusedfields]}} // expected-error@-2 {{write m_writeonly [loplugin:unusedfields]}} // expected-error@-3 {{read m_readonlyCss [loplugin:unusedfields]}} // expected-error@-4 {{outside-constructor m_readonly [loplugin:unusedfields]}} // expected-error@-5 {{outside-constructor m_readonlyCss [loplugin:unusedfields]}} // expected-error@-6 {{outside-constructor m_writeonly [loplugin:unusedfields]}} { std::vector<int> m_readonly; std::vector<int> m_writeonly; css::uno::Sequence<sal_Int32> m_readonlyCss; void func1() { int x = m_readonly[0]; (void)x; *m_readonly.begin() = 1; m_writeonly.push_back(0); m_writeonly.clear(); x = m_readonlyCss.getArray()[0]; } }; template<class T> struct VclPtr { VclPtr(T*); void clear(); }; // Check calls to operators struct WriteOnlyAnalysis2 // expected-error@-1 {{write m_vclwriteonly [loplugin:unusedfields]}} // expected-error@-2 {{outside-constructor m_vclwriteonly [loplugin:unusedfields]}} { VclPtr<int> m_vclwriteonly; WriteOnlyAnalysis2() : m_vclwriteonly(nullptr) { m_vclwriteonly = nullptr; } ~WriteOnlyAnalysis2() { m_vclwriteonly.clear(); } }; namespace WriteOnlyAnalysis3 { void setFoo(int); struct Foo1 // expected-error@-1 {{read m_field1 [loplugin:unusedfields]}} // expected-error@-2 {{write m_field1 [loplugin:unusedfields]}} // expected-error@-3 {{outside-constructor m_field1 [loplugin:unusedfields]}} { int m_field1; Foo1() : m_field1(1) {} ~Foo1() { setFoo(m_field1); } }; }; // Check that writes to fields that are wrapped by conditional checks are ignored, // where those conditional checks use an 'operator bool' namespace ReadOnlyAnalysis5 { struct RefTarget { void acquire(); void release(); }; struct Foo1 // expected-error@-1 {{read m_field1 [loplugin:unusedfields]}} // expected-error@-2 {{read m_field2 [loplugin:unusedfields]}} // expected-error@-3 {{read m_field3xx [loplugin:unusedfields]}} // expected-error@-4 {{outside-constructor m_field1 [loplugin:unusedfields]}} // expected-error@-5 {{outside-constructor m_field2 [loplugin:unusedfields]}} // expected-error@-6 {{outside-constructor m_field3xx [loplugin:unusedfields]}} { std::unique_ptr<int> m_field1; rtl::Reference<RefTarget> m_field2; css::uno::Reference<css::uno::XInterface> m_field3xx; void f1(css::uno::Reference<css::uno::XInterface> a) { if (m_field1) m_field1.reset(new int); if (m_field1.get()) m_field1.reset(new int); if (m_field2) m_field2 = new RefTarget; if (m_field2.get()) m_field2 = new RefTarget; if (m_field3xx) m_field3xx = a; if (m_field3xx.get()) m_field3xx = a; } }; }; namespace TouchFromOutsideConstructorAnalysis1 { struct RenderContextGuard // expected-error@-1 {{write m_pRef [loplugin:unusedfields]}} // expected-error@-2 {{read m_pRef [loplugin:unusedfields]}} // expected-error@-3 {{write m_pOriginalValue [loplugin:unusedfields]}} { int& m_pRef; int m_pOriginalValue; RenderContextGuard(int& pRef, int pValue) : m_pRef(pRef), m_pOriginalValue(m_pRef) { m_pRef = pValue; } }; }; namespace TouchFromOutsideAnalysis1 { struct SwViewShell { int* GetWin(); int* Imp(); }; struct RenderContextGuard // expected-error@-1 {{write m_pShell [loplugin:unusedfields]}} // expected-error@-2 {{read m_pShell [loplugin:unusedfields]}} { SwViewShell* m_pShell; RenderContextGuard(SwViewShell* pShell) : m_pShell(pShell) { if (m_pShell->GetWin()) { int* pDrawView(m_pShell->Imp()); if (nullptr != pDrawView) { FindPageWindow(*m_pShell->GetWin()); } } } void FindPageWindow(int x); }; }; namespace WriteOnlyAnalysis4 { struct ImplTabCtrlData // expected-error@-1 {{read maLayoutLineToPageId [loplugin:unusedfields]}} // expected-error@-2 {{outside maLayoutLineToPageId [loplugin:unusedfields]}} { std::map< int, int > maLayoutLineToPageId; }; class TabControl // expected-error@-1 {{read mpTabCtrlData [loplugin:unusedfields]}} // expected-error@-2 {{outside-constructor mpTabCtrlData [loplugin:unusedfields]}} { std::unique_ptr<ImplTabCtrlData> mpTabCtrlData; void foo(int nLine, int& rPageId) { rPageId = mpTabCtrlData->maLayoutLineToPageId[ nLine ]; } }; } namespace WriteOnlyAnalysis5 { struct ImplTabCtrlData // expected-error@-1 {{read maLayoutLineToPageId [loplugin:unusedfields]}} // expected-error@-2 {{write maLayoutLineToPageId [loplugin:unusedfields]}} // expected-error@-3 {{outside maLayoutLineToPageId [loplugin:unusedfields]}} { std::map< int, int > maLayoutLineToPageId; }; class TabControl // expected-error@-1 {{read mpTabCtrlData [loplugin:unusedfields]}} // expected-error@-2 {{outside-constructor mpTabCtrlData [loplugin:unusedfields]}} { std::unique_ptr<ImplTabCtrlData> mpTabCtrlData; void foo(int nLine, int nPageId) { mpTabCtrlData->maLayoutLineToPageId[ nLine ] = nPageId; } }; } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break:
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2026-04-02