root/modules/core/test/test_ptr.cpp

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DEFINITIONS

This source file includes following definitions.
  1. TEST
  2. TEST
  3. TEST
  4. TEST
  5. TEST
  6. TEST
  7. TEST
  8. TEST
  9. TEST
  10. TEST
  11. TEST
  12. TEST
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#include "test_precomp.hpp"

using namespace cv;

namespace {

struct Reporter {
    Reporter(bool* deleted) : deleted_(deleted)
    { *deleted_ = false; }

    // the destructor is virtual, so that we can test dynamic_cast later
    virtual ~Reporter()
    { *deleted_ = true; }

private:
    bool* deleted_;

    Reporter(const Reporter&);
    Reporter& operator = (const Reporter&);
};

struct ReportingDeleter {
    ReportingDeleter(bool* deleted) : deleted_(deleted)
    { *deleted_ = false; }

    void operator()(void*)
    { *deleted_ = true; }

private:
    bool* deleted_;
};

int dummyObject;

}

TEST(Core_Ptr, default_ctor)
{
    Ptr<int> p;
    EXPECT_EQ(NULL, p.get());
}

TEST(Core_Ptr, owning_ctor)
{
    bool deleted = false;

    {
        Reporter* r = new Reporter(&deleted);
        Ptr<void> p(r);
        EXPECT_EQ(r, p.get());
    }

    EXPECT_TRUE(deleted);

    {
        Ptr<int> p(&dummyObject, ReportingDeleter(&deleted));
        EXPECT_EQ(&dummyObject, p.get());
    }

    EXPECT_TRUE(deleted);

    {
        Ptr<void> p((void*)0, ReportingDeleter(&deleted));
        EXPECT_EQ(NULL, p.get());
    }

    EXPECT_FALSE(deleted);
}

TEST(Core_Ptr, sharing_ctor)
{
    bool deleted = false;

    {
        Ptr<Reporter> p1(new Reporter(&deleted));
        Ptr<Reporter> p2(p1);
        EXPECT_EQ(p1.get(), p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);

    {
        Ptr<Reporter> p1(new Reporter(&deleted));
        Ptr<void> p2(p1);
        EXPECT_EQ(p1.get(), p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);

    {
        Ptr<Reporter> p1(new Reporter(&deleted));
        Ptr<int> p2(p1, &dummyObject);
        EXPECT_EQ(&dummyObject, p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);
}

TEST(Core_Ptr, assignment)
{
    bool deleted1 = false, deleted2 = false;

    {
        Ptr<Reporter> p1(new Reporter(&deleted1));
        p1 = p1;
        EXPECT_FALSE(deleted1);
    }

    EXPECT_TRUE(deleted1);

    {
        Ptr<Reporter> p1(new Reporter(&deleted1));
        Ptr<Reporter> p2(new Reporter(&deleted2));
        p2 = p1;
        EXPECT_TRUE(deleted2);
        EXPECT_EQ(p1.get(), p2.get());
        p1.release();
        EXPECT_FALSE(deleted1);
    }

    EXPECT_TRUE(deleted1);

    {
        Ptr<Reporter> p1(new Reporter(&deleted1));
        Ptr<void> p2(new Reporter(&deleted2));
        p2 = p1;
        EXPECT_TRUE(deleted2);
        EXPECT_EQ(p1.get(), p2.get());
        p1.release();
        EXPECT_FALSE(deleted1);
    }

    EXPECT_TRUE(deleted1);
}

TEST(Core_Ptr, release)
{
    bool deleted = false;

    Ptr<Reporter> p1(new Reporter(&deleted));
    p1.release();
    EXPECT_TRUE(deleted);
    EXPECT_EQ(NULL, p1.get());
}

TEST(Core_Ptr, reset)
{
    bool deleted_old = false, deleted_new = false;

    {
        Ptr<void> p(new Reporter(&deleted_old));
        Reporter* r = new Reporter(&deleted_new);
        p.reset(r);
        EXPECT_TRUE(deleted_old);
        EXPECT_EQ(r, p.get());
    }

    EXPECT_TRUE(deleted_new);

    {
        Ptr<void> p(new Reporter(&deleted_old));
        p.reset(&dummyObject, ReportingDeleter(&deleted_new));
        EXPECT_TRUE(deleted_old);
        EXPECT_EQ(&dummyObject, p.get());
    }

    EXPECT_TRUE(deleted_new);
}

TEST(Core_Ptr, swap)
{
    bool deleted1 = false, deleted2 = false;

    {
        Reporter* r1 = new Reporter(&deleted1);
        Reporter* r2 = new Reporter(&deleted2);
        Ptr<Reporter> p1(r1), p2(r2);
        p1.swap(p2);
        EXPECT_EQ(r1, p2.get());
        EXPECT_EQ(r2, p1.get());
        EXPECT_FALSE(deleted1);
        EXPECT_FALSE(deleted2);
        p1.release();
        EXPECT_TRUE(deleted2);
    }

    EXPECT_TRUE(deleted1);

    {
        Reporter* r1 = new Reporter(&deleted1);
        Reporter* r2 = new Reporter(&deleted2);
        Ptr<Reporter> p1(r1), p2(r2);
        swap(p1, p2);
        EXPECT_EQ(r1, p2.get());
        EXPECT_EQ(r2, p1.get());
        EXPECT_FALSE(deleted1);
        EXPECT_FALSE(deleted2);
        p1.release();
        EXPECT_TRUE(deleted2);
    }

    EXPECT_TRUE(deleted1);
}

TEST(Core_Ptr, accessors)
{
    {
        Ptr<int> p;
        EXPECT_EQ(NULL, static_cast<int*>(p));
        EXPECT_TRUE(p.empty());
    }

    {
        Size* s = new Size();
        Ptr<Size> p(s);
        EXPECT_EQ(s, static_cast<Size*>(p));
        EXPECT_EQ(s, &*p);
        EXPECT_EQ(&s->width, &p->width);
        EXPECT_FALSE(p.empty());
    }
}

namespace {

struct SubReporterBase {
    virtual ~SubReporterBase() {}
    int padding;
};

/* multiple inheritance, so that casts do something interesting */
struct SubReporter : SubReporterBase, Reporter
{
    SubReporter(bool* deleted) : Reporter(deleted)
    {}
};

}

TEST(Core_Ptr, casts)
{
    bool deleted = false;

    {
        Ptr<const Reporter> p1(new Reporter(&deleted));
        Ptr<Reporter> p2 = p1.constCast<Reporter>();
        EXPECT_EQ(p1.get(), p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);

    {
        SubReporter* sr = new SubReporter(&deleted);
        Ptr<Reporter> p1(sr);
        // This next check isn't really for Ptr itself; it checks that Reporter
        // is at a non-zero offset within SubReporter, so that the next
        // check will give us more confidence that the cast actually did something.
        EXPECT_NE(static_cast<void*>(sr), static_cast<void*>(p1.get()));
        Ptr<SubReporter> p2 = p1.staticCast<SubReporter>();
        EXPECT_EQ(sr, p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);

    {
        SubReporter* sr = new SubReporter(&deleted);
        Ptr<Reporter> p1(sr);
        EXPECT_NE(static_cast<void*>(sr), static_cast<void*>(p1.get()));
        Ptr<void> p2 = p1.dynamicCast<void>();
        EXPECT_EQ(sr, p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);

    {
        Ptr<Reporter> p1(new Reporter(&deleted));
        Ptr<SubReporter> p2 = p1.dynamicCast<SubReporter>();
        EXPECT_EQ(NULL, p2.get());
        p1.release();
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);
}

TEST(Core_Ptr, comparisons)
{
    Ptr<int> p1, p2(new int), p3(new int);
    Ptr<int> p4(p2, p3.get());

    // Not using EXPECT_EQ here, since none of them are really "expected" or "actual".
    EXPECT_TRUE(p1 == p1);
    EXPECT_TRUE(p2 == p2);
    EXPECT_TRUE(p2 != p3);
    EXPECT_TRUE(p2 != p4);
    EXPECT_TRUE(p3 == p4);
}

TEST(Core_Ptr, make)
{
    bool deleted = true;

    {
        Ptr<void> p = makePtr<Reporter>(&deleted);
        EXPECT_FALSE(deleted);
    }

    EXPECT_TRUE(deleted);
}

namespace {

struct SpeciallyDeletable
{
    SpeciallyDeletable() : deleted(false)
    {}
    bool deleted;
};

}

namespace cv {

template<>
void DefaultDeleter<SpeciallyDeletable>::operator()(SpeciallyDeletable * obj) const
{ obj->deleted = true; }

}

TEST(Core_Ptr, specialized_deleter)
{
    SpeciallyDeletable sd;

    { Ptr<void> p(&sd); }

    ASSERT_TRUE(sd.deleted);
}
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