Update chrome/ to use scoped_refptr<T>::get() rather than implicit "operator T*"

chrome/browser/extensions/api/declarative/deduping_factory_unittest.cc

 // Copyright (c) 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 "chrome/browser/extensions/api/declarative/deduping_factory.h"
 
 #include "base/values.h"
 #include "testing/gtest/include/gtest/gtest.h"
 
 namespace {
@@ skipping 80 matching lines @@
   scoped_ptr<base::DictionaryValue> d4(CreateDictWithParameter(4));
 
   std::string error;
   bool bad_message = false;
 
   // Fill factory with 2 different types.
   scoped_refptr<const BaseClass> c1(
       factory.Instantiate(kTypeName, d1.get(), &error, &bad_message));
   scoped_refptr<const BaseClass> c2(
       factory.Instantiate(kTypeName, d2.get(), &error, &bad_message));
-  ASSERT_TRUE(c1);
-  ASSERT_TRUE(c2);
+  ASSERT_TRUE(c1.get());
+  ASSERT_TRUE(c2.get());
   EXPECT_EQ(1, static_cast<const Foo*>(c1.get())->parameter());
   EXPECT_EQ(2, static_cast<const Foo*>(c2.get())->parameter());
 
   // This one produces an overflow, now the cache contains [2, 3]
   scoped_refptr<const BaseClass> c3(
       factory.Instantiate(kTypeName, d3.get(), &error, &bad_message));
-  ASSERT_TRUE(c3);
+  ASSERT_TRUE(c3.get());
   EXPECT_EQ(3, static_cast<const Foo*>(c3.get())->parameter());
 
   // Reuse 2, this should give the same instance as c2.
   scoped_refptr<const BaseClass> c2_b(
       factory.Instantiate(kTypeName, d2.get(), &error, &bad_message));
   EXPECT_EQ(2, static_cast<const Foo*>(c2_b.get())->parameter());
   EXPECT_EQ(c2, c2_b);
 
   // Also check that the reuse of 2 moved it to the end, so that the cache is
   // now [3, 2] and 3 is discarded before 2.
@@ skipping 17 matching lines @@
 
   std::string error;
   bool bad_message = false;
 
   // We create two instances with different dictionaries but because the type is
   // declared to be not parameterized, we should get the same instance.
   scoped_refptr<const BaseClass> c1(
       factory.Instantiate(kTypeName, d1.get(), &error, &bad_message));
   scoped_refptr<const BaseClass> c2(
       factory.Instantiate(kTypeName, d2.get(), &error, &bad_message));
-  ASSERT_TRUE(c1);
-  ASSERT_TRUE(c2);
+  ASSERT_TRUE(c1.get());
+  ASSERT_TRUE(c2.get());
   EXPECT_EQ(1, static_cast<const Foo*>(c1.get())->parameter());
   EXPECT_EQ(1, static_cast<const Foo*>(c2.get())->parameter());
   EXPECT_EQ(c1, c2);
 }
 
 TEST(DedupingFactoryTest, TypeNames) {
   DedupingFactory<BaseClass> factory(2);
   factory.RegisterFactoryMethod(
       kTypeName, DedupingFactory<BaseClass>::IS_PARAMETERIZED, &CreateFoo);
   factory.RegisterFactoryMethod(
       kTypeName2, DedupingFactory<BaseClass>::IS_PARAMETERIZED, &CreateFoo);
 
   scoped_ptr<base::DictionaryValue> d1(CreateDictWithParameter(1));
 
   std::string error;
   bool bad_message = false;
 
   scoped_refptr<const BaseClass> c1_a(
       factory.Instantiate(kTypeName, d1.get(), &error, &bad_message));
   scoped_refptr<const BaseClass> c1_b(
       factory.Instantiate(kTypeName2, d1.get(), &error, &bad_message));
 
-  ASSERT_TRUE(c1_a);
-  ASSERT_TRUE(c1_b);
+  ASSERT_TRUE(c1_a.get());
+  ASSERT_TRUE(c1_b.get());
   EXPECT_NE(c1_a, c1_b);
 }
 
 TEST(DedupingFactoryTest, Clear) {
   DedupingFactory<BaseClass> factory(2);
   factory.RegisterFactoryMethod(
       kTypeName, DedupingFactory<BaseClass>::IS_PARAMETERIZED, &CreateFoo);
 
   scoped_ptr<base::DictionaryValue> d1(CreateDictWithParameter(1));
 
   std::string error;
   bool bad_message = false;
 
   scoped_refptr<const BaseClass> c1_a(
       factory.Instantiate(kTypeName, d1.get(), &error, &bad_message));
 
   factory.ClearPrototypes();
 
   scoped_refptr<const BaseClass> c1_b(
       factory.Instantiate(kTypeName, d1.get(), &error, &bad_message));
 
-  ASSERT_TRUE(c1_a);
-  ASSERT_TRUE(c1_b);
+  ASSERT_TRUE(c1_a.get());
+  ASSERT_TRUE(c1_b.get());
   EXPECT_NE(c1_a, c1_b);
 }
 
 }  // namespace extensions