skia/ext/refptr_unittest.cc - chromium/src - Git at Google

 // Copyright 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "skia/ext/refptr.h"

 #include "testing/gtest/include/gtest/gtest.h"

 namespace skia {
 namespace {

 TEST(RefPtrTest, ReferenceCounting) {
   SkRefCnt* ref = new SkRefCnt();
   EXPECT_TRUE(ref->unique());

   {
     // Adopt the reference from the caller on creation.
     RefPtr<SkRefCnt> refptr1 = AdoptRef(ref);
     EXPECT_TRUE(ref->unique());
     EXPECT_TRUE(refptr1->unique());

     EXPECT_EQ(ref, &*refptr1);
     EXPECT_EQ(ref, refptr1.get());

     {
       // Take a second reference for the second instance.
       RefPtr<SkRefCnt> refptr2(refptr1);
       EXPECT_FALSE(ref->unique());

       RefPtr<SkRefCnt> refptr3;
       EXPECT_FALSE(refptr3);

       // Take a third reference for the third instance.
       refptr3 = refptr1;
       EXPECT_FALSE(ref->unique());

       // Same object, so should have the same refcount.
       refptr2 = refptr3;
       EXPECT_FALSE(ref->unique());

       // Drop the object from refptr2, so it should lose its reference.
       EXPECT_TRUE(refptr2);
       refptr2.clear();
       EXPECT_FALSE(ref->unique());

       EXPECT_FALSE(refptr2);
       EXPECT_EQ(nullptr, refptr2.get());

       EXPECT_TRUE(refptr3);
       EXPECT_FALSE(refptr3->unique());
       EXPECT_EQ(ref, &*refptr3);
       EXPECT_EQ(ref, refptr3.get());
     }

     // Drop a reference when the third object is destroyed.
     EXPECT_TRUE(ref->unique());
   }
 }

 TEST(RefPtrTest, Construct) {
   SkRefCnt* ref = new SkRefCnt();
   EXPECT_TRUE(ref->unique());

   // Adopt the reference from the caller on creation.
   RefPtr<SkRefCnt> refptr1(AdoptRef(ref));
   EXPECT_TRUE(ref->unique());
   EXPECT_TRUE(refptr1->unique());

   EXPECT_EQ(ref, &*refptr1);
   EXPECT_EQ(ref, refptr1.get());

   RefPtr<SkRefCnt> refptr2(refptr1);
   EXPECT_FALSE(ref->unique());
 }

 TEST(RefPtrTest, DeclareAndAssign) {
   SkRefCnt* ref = new SkRefCnt();
   EXPECT_TRUE(ref->unique());

   // Adopt the reference from the caller on creation.
   RefPtr<SkRefCnt> refptr1 = AdoptRef(ref);
   EXPECT_TRUE(ref->unique());
   EXPECT_TRUE(refptr1->unique());

   EXPECT_EQ(ref, &*refptr1);
   EXPECT_EQ(ref, refptr1.get());

   RefPtr<SkRefCnt> refptr2 = refptr1;
   EXPECT_FALSE(ref->unique());
 }

 TEST(RefPtrTest, Assign) {
   SkRefCnt* ref = new SkRefCnt();
   EXPECT_TRUE(ref->unique());

   // Adopt the reference from the caller on creation.
   RefPtr<SkRefCnt> refptr1;
   refptr1 = AdoptRef(ref);
   EXPECT_TRUE(ref->unique());
   EXPECT_TRUE(refptr1->unique());

   EXPECT_EQ(ref, &*refptr1);
   EXPECT_EQ(ref, refptr1.get());

   RefPtr<SkRefCnt> refptr2;
   refptr2 = refptr1;
   EXPECT_FALSE(ref->unique());
 }

 class Subclass : public SkRefCnt {};

 TEST(RefPtrTest, Upcast) {
   RefPtr<Subclass> child = AdoptRef(new Subclass());
   EXPECT_TRUE(child->unique());

   RefPtr<SkRefCnt> parent = child;
   EXPECT_TRUE(child);
   EXPECT_TRUE(parent);

   EXPECT_FALSE(child->unique());
   EXPECT_FALSE(parent->unique());
 }

 // Counts the number of ref/unref operations (which require atomic operations)
 // that are done.
 class RefCountCounter : public SkRefCnt {
  public:
   void ref() const {
     ref_count_changes_++;
     SkRefCnt::ref();
   }
   void unref() const {
     ref_count_changes_++;
     SkRefCnt::unref();
   }
   int ref_count_changes() const { return ref_count_changes_; }
   void ResetRefCountChanges() { ref_count_changes_ = 0; }

  private:
   mutable int ref_count_changes_ = 0;
 };

 TEST(RefPtrTest, ConstructionFromTemporary) {
   // No ref count changes to move temporary into a local.
   RefPtr<RefCountCounter> object = skia::AdoptRef(new RefCountCounter);
   EXPECT_EQ(0, object->ref_count_changes());

   // Only one change to share the pointer.
   object->ResetRefCountChanges();
   RefPtr<RefCountCounter> shared = skia::SharePtr(object.get());
   EXPECT_EQ(1, object->ref_count_changes());

   // Two ref count changes for the extra ref when passed as an argument, but no
   // more.
   object->ResetRefCountChanges();
   auto do_nothing = [](RefPtr<RefCountCounter>) {};
   do_nothing(object);
   EXPECT_EQ(2, object->ref_count_changes());

   // No ref count changes when passing a newly adopted ref as an argument.
   auto lambda = [](RefPtr<RefCountCounter> arg) {
     EXPECT_EQ(0, arg->ref_count_changes());
   };
   lambda(skia::AdoptRef(new RefCountCounter));
 }

 TEST(RefPtrTest, AssignmentFromTemporary) {
   // No ref count changes to move temporary into a local.
   RefPtr<RefCountCounter> object;
   object = skia::AdoptRef(new RefCountCounter);
   EXPECT_EQ(0, object->ref_count_changes());

   // Only one change to share the pointer.
   object->ResetRefCountChanges();
   RefPtr<RefCountCounter> shared;
   shared = skia::SharePtr(object.get());
   EXPECT_EQ(1, object->ref_count_changes());
 }

 TEST(RefPtrTest, PassIntoArguments) {
   // No ref count changes when passing an argument with Pass().
   RefPtr<RefCountCounter> object = skia::AdoptRef(new RefCountCounter);
   RefPtr<RefCountCounter> object2 = std::move(object);
   auto lambda = [](RefPtr<RefCountCounter> arg) {
     EXPECT_EQ(0, arg->ref_count_changes());
   };
   lambda(std::move(object2));
 }

 class DestructionNotifier : public SkRefCnt {
  public:
   DestructionNotifier(bool* flag) : flag_(flag) {}
   ~DestructionNotifier() override { *flag_ = true; }

  private:
   bool* flag_;
 };

 TEST(RefPtrTest, Nullptr) {
   RefPtr<SkRefCnt> null(nullptr);
   EXPECT_FALSE(null);

   bool is_destroyed = false;
   RefPtr<DestructionNotifier> destroy_me =
       skia::AdoptRef(new DestructionNotifier(&is_destroyed));
   destroy_me = nullptr;
   EXPECT_TRUE(is_destroyed);
   EXPECT_FALSE(destroy_me);

   // Check that returning nullptr from a function correctly causes an implicit
   // conversion.
   auto lambda = []() -> RefPtr<SkRefCnt> { return nullptr; };
   RefPtr<SkRefCnt> returned = lambda();
   EXPECT_FALSE(returned);
 }

 TEST(RefPtrTest, SkSP) {
   sk_sp<RefCountCounter> sp = sk_make_sp<RefCountCounter>();
   EXPECT_EQ(0, sp->ref_count_changes());

   RefPtr<RefCountCounter> ref = skia::SharePtr(sp);
   EXPECT_FALSE(ref->unique());
   EXPECT_EQ(1, ref->ref_count_changes());

   sp = sk_make_sp<RefCountCounter>();
   EXPECT_TRUE(ref->unique());
   EXPECT_EQ(2, ref->ref_count_changes());

   ref = skia::SharePtr(std::move(sp));
   EXPECT_TRUE(ref->unique());
   EXPECT_EQ(0, ref->ref_count_changes());

   sp = sk_make_sp<RefCountCounter>();
   ref = skia::AdoptRef(std::move(sp));
   EXPECT_TRUE(ref->unique());
   EXPECT_EQ(0, ref->ref_count_changes());

   ref = skia::AdoptRef(sk_make_sp<RefCountCounter>());
   EXPECT_TRUE(ref->unique());
   EXPECT_EQ(0, ref->ref_count_changes());
 }

 }  // namespace
 }  // namespace skia
	// Copyright 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "skia/ext/refptr.h"

	#include "testing/gtest/include/gtest/gtest.h"

	namespace skia {
	namespace {

	TEST(RefPtrTest, ReferenceCounting) {
	SkRefCnt* ref = new SkRefCnt();
	EXPECT_TRUE(ref->unique());

	{
	// Adopt the reference from the caller on creation.
	RefPtr<SkRefCnt> refptr1 = AdoptRef(ref);
	EXPECT_TRUE(ref->unique());
	EXPECT_TRUE(refptr1->unique());

	EXPECT_EQ(ref, &*refptr1);
	EXPECT_EQ(ref, refptr1.get());

	{
	// Take a second reference for the second instance.
	RefPtr<SkRefCnt> refptr2(refptr1);
	EXPECT_FALSE(ref->unique());

	RefPtr<SkRefCnt> refptr3;
	EXPECT_FALSE(refptr3);

	// Take a third reference for the third instance.
	refptr3 = refptr1;
	EXPECT_FALSE(ref->unique());

	// Same object, so should have the same refcount.
	refptr2 = refptr3;
	EXPECT_FALSE(ref->unique());

	// Drop the object from refptr2, so it should lose its reference.
	EXPECT_TRUE(refptr2);
	refptr2.clear();
	EXPECT_FALSE(ref->unique());

	EXPECT_FALSE(refptr2);
	EXPECT_EQ(nullptr, refptr2.get());

	EXPECT_TRUE(refptr3);
	EXPECT_FALSE(refptr3->unique());
	EXPECT_EQ(ref, &*refptr3);
	EXPECT_EQ(ref, refptr3.get());
	}

	// Drop a reference when the third object is destroyed.
	EXPECT_TRUE(ref->unique());
	}
	}

	TEST(RefPtrTest, Construct) {
	SkRefCnt* ref = new SkRefCnt();
	EXPECT_TRUE(ref->unique());

	// Adopt the reference from the caller on creation.
	RefPtr<SkRefCnt> refptr1(AdoptRef(ref));
	EXPECT_TRUE(ref->unique());
	EXPECT_TRUE(refptr1->unique());

	EXPECT_EQ(ref, &*refptr1);
	EXPECT_EQ(ref, refptr1.get());

	RefPtr<SkRefCnt> refptr2(refptr1);
	EXPECT_FALSE(ref->unique());
	}

	TEST(RefPtrTest, DeclareAndAssign) {
	SkRefCnt* ref = new SkRefCnt();
	EXPECT_TRUE(ref->unique());

	// Adopt the reference from the caller on creation.
	RefPtr<SkRefCnt> refptr1 = AdoptRef(ref);
	EXPECT_TRUE(ref->unique());
	EXPECT_TRUE(refptr1->unique());

	EXPECT_EQ(ref, &*refptr1);
	EXPECT_EQ(ref, refptr1.get());

	RefPtr<SkRefCnt> refptr2 = refptr1;
	EXPECT_FALSE(ref->unique());
	}

	TEST(RefPtrTest, Assign) {
	SkRefCnt* ref = new SkRefCnt();
	EXPECT_TRUE(ref->unique());

	// Adopt the reference from the caller on creation.
	RefPtr<SkRefCnt> refptr1;
	refptr1 = AdoptRef(ref);
	EXPECT_TRUE(ref->unique());
	EXPECT_TRUE(refptr1->unique());

	EXPECT_EQ(ref, &*refptr1);
	EXPECT_EQ(ref, refptr1.get());

	RefPtr<SkRefCnt> refptr2;
	refptr2 = refptr1;
	EXPECT_FALSE(ref->unique());
	}

	class Subclass : public SkRefCnt {};

	TEST(RefPtrTest, Upcast) {
	RefPtr<Subclass> child = AdoptRef(new Subclass());
	EXPECT_TRUE(child->unique());

	RefPtr<SkRefCnt> parent = child;
	EXPECT_TRUE(child);
	EXPECT_TRUE(parent);

	EXPECT_FALSE(child->unique());
	EXPECT_FALSE(parent->unique());
	}

	// Counts the number of ref/unref operations (which require atomic operations)
	// that are done.
	class RefCountCounter : public SkRefCnt {
	public:
	void ref() const {
	ref_count_changes_++;
	SkRefCnt::ref();
	}
	void unref() const {
	ref_count_changes_++;
	SkRefCnt::unref();
	}
	int ref_count_changes() const { return ref_count_changes_; }
	void ResetRefCountChanges() { ref_count_changes_ = 0; }

	private:
	mutable int ref_count_changes_ = 0;
	};

	TEST(RefPtrTest, ConstructionFromTemporary) {
	// No ref count changes to move temporary into a local.
	RefPtr<RefCountCounter> object = skia::AdoptRef(new RefCountCounter);
	EXPECT_EQ(0, object->ref_count_changes());

	// Only one change to share the pointer.
	object->ResetRefCountChanges();
	RefPtr<RefCountCounter> shared = skia::SharePtr(object.get());
	EXPECT_EQ(1, object->ref_count_changes());

	// Two ref count changes for the extra ref when passed as an argument, but no
	// more.
	object->ResetRefCountChanges();
	auto do_nothing = [](RefPtr<RefCountCounter>) {};
	do_nothing(object);
	EXPECT_EQ(2, object->ref_count_changes());

	// No ref count changes when passing a newly adopted ref as an argument.
	auto lambda = [](RefPtr<RefCountCounter> arg) {
	EXPECT_EQ(0, arg->ref_count_changes());
	};
	lambda(skia::AdoptRef(new RefCountCounter));
	}

	TEST(RefPtrTest, AssignmentFromTemporary) {
	// No ref count changes to move temporary into a local.
	RefPtr<RefCountCounter> object;
	object = skia::AdoptRef(new RefCountCounter);
	EXPECT_EQ(0, object->ref_count_changes());

	// Only one change to share the pointer.
	object->ResetRefCountChanges();
	RefPtr<RefCountCounter> shared;
	shared = skia::SharePtr(object.get());
	EXPECT_EQ(1, object->ref_count_changes());
	}

	TEST(RefPtrTest, PassIntoArguments) {
	// No ref count changes when passing an argument with Pass().
	RefPtr<RefCountCounter> object = skia::AdoptRef(new RefCountCounter);
	RefPtr<RefCountCounter> object2 = std::move(object);
	auto lambda = [](RefPtr<RefCountCounter> arg) {
	EXPECT_EQ(0, arg->ref_count_changes());
	};
	lambda(std::move(object2));
	}

	class DestructionNotifier : public SkRefCnt {
	public:
	DestructionNotifier(bool* flag) : flag_(flag) {}
	~DestructionNotifier() override { *flag_ = true; }

	private:
	bool* flag_;
	};

	TEST(RefPtrTest, Nullptr) {
	RefPtr<SkRefCnt> null(nullptr);
	EXPECT_FALSE(null);

	bool is_destroyed = false;
	RefPtr<DestructionNotifier> destroy_me =
	skia::AdoptRef(new DestructionNotifier(&is_destroyed));
	destroy_me = nullptr;
	EXPECT_TRUE(is_destroyed);
	EXPECT_FALSE(destroy_me);

	// Check that returning nullptr from a function correctly causes an implicit
	// conversion.
	auto lambda = []() -> RefPtr<SkRefCnt> { return nullptr; };
	RefPtr<SkRefCnt> returned = lambda();
	EXPECT_FALSE(returned);
	}

	TEST(RefPtrTest, SkSP) {
	sk_sp<RefCountCounter> sp = sk_make_sp<RefCountCounter>();
	EXPECT_EQ(0, sp->ref_count_changes());

	RefPtr<RefCountCounter> ref = skia::SharePtr(sp);
	EXPECT_FALSE(ref->unique());
	EXPECT_EQ(1, ref->ref_count_changes());

	sp = sk_make_sp<RefCountCounter>();
	EXPECT_TRUE(ref->unique());
	EXPECT_EQ(2, ref->ref_count_changes());

	ref = skia::SharePtr(std::move(sp));
	EXPECT_TRUE(ref->unique());
	EXPECT_EQ(0, ref->ref_count_changes());

	sp = sk_make_sp<RefCountCounter>();
	ref = skia::AdoptRef(std::move(sp));
	EXPECT_TRUE(ref->unique());
	EXPECT_EQ(0, ref->ref_count_changes());

	ref = skia::AdoptRef(sk_make_sp<RefCountCounter>());
	EXPECT_TRUE(ref->unique());
	EXPECT_EQ(0, ref->ref_count_changes());
	}

	} // namespace
	} // namespace skia