// 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 "base/containers/stack_container.h" #include #include #include "base/memory/aligned_memory.h" #include "base/memory/ref_counted.h" #include "build/build_config.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class Dummy : public base::RefCounted { public: explicit Dummy(int* alive) : alive_(alive) { ++*alive_; } private: friend class base::RefCounted; ~Dummy() { --*alive_; } int* const alive_; }; } // namespace TEST(StackContainer, Vector) { const int stack_size = 3; StackVector vect; const int* stack_buffer = &vect.stack_data().stack_buffer()[0]; // The initial |stack_size| elements should appear in the stack buffer. EXPECT_EQ(static_cast(stack_size), vect.container().capacity()); for (int i = 0; i < stack_size; i++) { vect.container().push_back(i); EXPECT_EQ(stack_buffer, &vect.container()[0]); EXPECT_TRUE(vect.stack_data().used_stack_buffer_); } // Adding more elements should push the array onto the heap. for (int i = 0; i < stack_size; i++) { vect.container().push_back(i + stack_size); EXPECT_NE(stack_buffer, &vect.container()[0]); EXPECT_FALSE(vect.stack_data().used_stack_buffer_); } // The array should still be in order. for (int i = 0; i < stack_size * 2; i++) EXPECT_EQ(i, vect.container()[i]); // Resize to smaller. Our STL implementation won't reallocate in this case, // otherwise it might use our stack buffer. We reserve right after the resize // to guarantee it isn't using the stack buffer, even though it doesn't have // much data. vect.container().resize(stack_size); vect.container().reserve(stack_size * 2); EXPECT_FALSE(vect.stack_data().used_stack_buffer_); // Copying the small vector to another should use the same allocator and use // the now-unused stack buffer. GENERALLY CALLERS SHOULD NOT DO THIS since // they have to get the template types just right and it can cause errors. std::vector > other(vect.container()); EXPECT_EQ(stack_buffer, &other.front()); EXPECT_TRUE(vect.stack_data().used_stack_buffer_); for (int i = 0; i < stack_size; i++) EXPECT_EQ(i, other[i]); } TEST(StackContainer, VectorDoubleDelete) { // Regression testing for double-delete. typedef StackVector, 2> Vector; typedef Vector::ContainerType Container; Vector vect; int alive = 0; scoped_refptr dummy(new Dummy(&alive)); EXPECT_EQ(alive, 1); vect->push_back(dummy); EXPECT_EQ(alive, 1); Dummy* dummy_unref = dummy.get(); dummy = NULL; EXPECT_EQ(alive, 1); Container::iterator itr = std::find(vect->begin(), vect->end(), dummy_unref); EXPECT_EQ(itr->get(), dummy_unref); vect->erase(itr); EXPECT_EQ(alive, 0); // Shouldn't crash at exit. } namespace { template class AlignedData { public: AlignedData() { memset(data_.void_data(), 0, alignment); } ~AlignedData() {} base::AlignedMemory data_; }; } // anonymous namespace #define EXPECT_ALIGNED(ptr, align) \ EXPECT_EQ(0u, reinterpret_cast(ptr) & (align - 1)) TEST(StackContainer, BufferAlignment) { StackVector text; text->push_back(L'A'); EXPECT_ALIGNED(&text[0], ALIGNOF(wchar_t)); StackVector doubles; doubles->push_back(0.0); EXPECT_ALIGNED(&doubles[0], ALIGNOF(double)); StackVector, 1> aligned16; aligned16->push_back(AlignedData<16>()); EXPECT_ALIGNED(&aligned16[0], 16); #if !defined(__GNUC__) || defined(ARCH_CPU_X86_FAMILY) // It seems that non-X86 gcc doesn't respect greater than 16 byte alignment. // See http://gcc.gnu.org/bugzilla/show_bug.cgi?id=33721 for details. // TODO(sbc):re-enable this if GCC starts respecting higher alignments. StackVector, 1> aligned256; aligned256->push_back(AlignedData<256>()); EXPECT_ALIGNED(&aligned256[0], 256); #endif } template class StackVector; template class StackVector, 2>; } // namespace base