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1 /*
2  * Copyright 2012, The Android Open Source Project
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions
6  * are met:
7  *  * Redistributions of source code must retain the above copyright
8  *    notice, this list of conditions and the following disclaimer.
9  *  * Redistributions in binary form must reproduce the above copyright
10  *    notice, this list of conditions and the following disclaimer in the
11  *    documentation and/or other materials provided with the distribution.
12  *
13  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
14  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
15  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
16  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR
17  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
18  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
19  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
20  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
21  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
23  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24  */
25 
26 #ifndef ANDROID_LINEARALLOCATOR_H
27 #define ANDROID_LINEARALLOCATOR_H
28 
29 #include <stddef.h>
30 #include <type_traits>
31 
32 #include <vector>
33 
34 namespace android {
35 namespace uirenderer {
36 
37 /**
38  * A memory manager that internally allocates multi-kbyte buffers for placing objects in. It avoids
39  * the overhead of malloc when many objects are allocated. It is most useful when creating many
40  * small objects with a similar lifetime, and doesn't add significant overhead for large
41  * allocations.
42  */
43 class LinearAllocator {
44 public:
45     LinearAllocator();
46     ~LinearAllocator();
47 
48     /**
49      * Reserves and returns a region of memory of at least size 'size', aligning as needed.
50      * Typically this is used in an object's overridden new() method or as a replacement for malloc.
51      *
52      * The lifetime of the returned buffers is tied to that of the LinearAllocator. If calling
53      * delete() on an object stored in a buffer is needed, it should be overridden to use
54      * rewindIfLastAlloc()
55      *
56      * Note that unlike create, for alloc the type is purely for compile-time error
57      * checking and does not affect size.
58      */
59     template<class T>
alloc(size_t size)60     void* alloc(size_t size) {
61         static_assert(std::is_trivially_destructible<T>::value,
62                 "Error, type is non-trivial! did you mean to use create()?");
63         return allocImpl(size);
64     }
65 
66     /**
67      * Allocates an instance of the template type with the given construction parameters
68      * and adds it to the automatic destruction list.
69      */
70     template<class T, typename... Params>
create(Params &&...params)71     T* create(Params&&... params) {
72         T* ret = new (allocImpl(sizeof(T))) T(std::forward<Params>(params)...);
73         if (!std::is_trivially_destructible<T>::value) {
74             auto dtor = [](void* ret) { ((T*)ret)->~T(); };
75             addToDestructionList(dtor, ret);
76         }
77         return ret;
78     }
79 
80     template<class T, typename... Params>
create_trivial(Params &&...params)81     T* create_trivial(Params&&... params) {
82         static_assert(std::is_trivially_destructible<T>::value,
83                 "Error, called create_trivial on a non-trivial type");
84         return new (allocImpl(sizeof(T))) T(std::forward<Params>(params)...);
85     }
86 
87     template<class T>
create_trivial_array(int count)88     T* create_trivial_array(int count) {
89         static_assert(std::is_trivially_destructible<T>::value,
90                 "Error, called create_trivial_array on a non-trivial type");
91         return reinterpret_cast<T*>(allocImpl(sizeof(T) * count));
92     }
93 
94     /**
95      * Attempt to deallocate the given buffer, with the LinearAllocator attempting to rewind its
96      * state if possible.
97      */
98     void rewindIfLastAlloc(void* ptr, size_t allocSize);
99 
100     /**
101      * Same as rewindIfLastAlloc(void*, size_t)
102      */
103     template<class T>
rewindIfLastAlloc(T * ptr)104     void rewindIfLastAlloc(T* ptr) {
105         rewindIfLastAlloc((void*)ptr, sizeof(T));
106     }
107 
108     /**
109      * Dump memory usage statistics to the log (allocated and wasted space)
110      */
111     void dumpMemoryStats(const char* prefix = "");
112 
113     /**
114      * The number of bytes used for buffers allocated in the LinearAllocator (does not count space
115      * wasted)
116      */
usedSize()117     size_t usedSize() const { return mTotalAllocated - mWastedSpace; }
118 
119 private:
120     LinearAllocator(const LinearAllocator& other);
121 
122     class Page;
123     typedef void (*Destructor)(void* addr);
124     struct DestructorNode {
125         Destructor dtor;
126         void* addr;
127         DestructorNode* next = nullptr;
128     };
129 
130     void* allocImpl(size_t size);
131 
132     void addToDestructionList(Destructor, void* addr);
133     void runDestructorFor(void* addr);
134     Page* newPage(size_t pageSize);
135     bool fitsInCurrentPage(size_t size);
136     void ensureNext(size_t size);
137     void* start(Page *p);
138     void* end(Page* p);
139 
140     size_t mPageSize;
141     size_t mMaxAllocSize;
142     void* mNext;
143     Page* mCurrentPage;
144     Page* mPages;
145     DestructorNode* mDtorList = nullptr;
146 
147     // Memory usage tracking
148     size_t mTotalAllocated;
149     size_t mWastedSpace;
150     size_t mPageCount;
151     size_t mDedicatedPageCount;
152 };
153 
154 template <class T>
155 class LinearStdAllocator {
156 public:
157     typedef T value_type; // needed to implement std::allocator
158     typedef T* pointer; // needed to implement std::allocator
159 
LinearStdAllocator(LinearAllocator & allocator)160     explicit LinearStdAllocator(LinearAllocator& allocator)
161             : linearAllocator(allocator) {}
LinearStdAllocator(const LinearStdAllocator & other)162     LinearStdAllocator(const LinearStdAllocator& other)
163             : linearAllocator(other.linearAllocator) {}
~LinearStdAllocator()164     ~LinearStdAllocator() {}
165 
166     // rebind marks that allocators can be rebound to different types
167     template <class U>
168     struct rebind {
169         typedef LinearStdAllocator<U> other;
170     };
171     // enable allocators to be constructed from other templated types
172     template <class U>
LinearStdAllocator(const LinearStdAllocator<U> & other)173     LinearStdAllocator(const LinearStdAllocator<U>& other)  // NOLINT(implicit)
174             : linearAllocator(other.linearAllocator) {}
175 
176     T* allocate(size_t num, const void* = 0) {
177         return (T*)(linearAllocator.alloc<void*>(num * sizeof(T)));
178     }
179 
deallocate(pointer p,size_t num)180     void deallocate(pointer p, size_t num) {
181         // attempt to rewind, but no guarantees
182         linearAllocator.rewindIfLastAlloc(p, num * sizeof(T));
183     }
184 
185     // public so template copy constructor can access
186     LinearAllocator& linearAllocator;
187 };
188 
189 // return that all specializations of LinearStdAllocator are interchangeable
190 template <class T1, class T2>
191 bool operator== (const LinearStdAllocator<T1>&, const LinearStdAllocator<T2>&) { return true; }
192 template <class T1, class T2>
193 bool operator!= (const LinearStdAllocator<T1>&, const LinearStdAllocator<T2>&) { return false; }
194 
195 template <class T>
196 class LsaVector : public std::vector<T, LinearStdAllocator<T>> {
197 public:
LsaVector(const LinearStdAllocator<T> & allocator)198     explicit LsaVector(const LinearStdAllocator<T>& allocator)
199             : std::vector<T, LinearStdAllocator<T>>(allocator) {}
200 };
201 
202 }; // namespace uirenderer
203 }; // namespace android
204 
205 #endif // ANDROID_LINEARALLOCATOR_H
206