1 /*
2  * Copyright 2016 Google Inc.
3  *
4  * Use of this source code is governed by a BSD-style license that can be
5  * found in the LICENSE file.
6  */
7 
8 #ifndef SkAutoMalloc_DEFINED
9 #define SkAutoMalloc_DEFINED
10 
11 #include "SkMacros.h"
12 #include "SkMalloc.h"
13 #include "SkNoncopyable.h"
14 #include "SkTypes.h"
15 
16 #include <memory>
17 
18 /**
19  *  Manage an allocated block of heap memory. This object is the sole manager of
20  *  the lifetime of the block, so the caller must not call sk_free() or delete
21  *  on the block, unless release() was called.
22  */
23 class SkAutoMalloc : SkNoncopyable {
24 public:
25     explicit SkAutoMalloc(size_t size = 0)
26         : fPtr(size ? sk_malloc_throw(size) : nullptr), fSize(size) {}
27 
28     /**
29      *  Passed to reset to specify what happens if the requested size is smaller
30      *  than the current size (and the current block was dynamically allocated).
31      */
32     enum OnShrink {
33         /**
34          *  If the requested size is smaller than the current size, and the
35          *  current block is dynamically allocated, free the old block and
36          *  malloc a new block of the smaller size.
37          */
38         kAlloc_OnShrink,
39 
40         /**
41          *  If the requested size is smaller than the current size, and the
42          *  current block is dynamically allocated, just return the old
43          *  block.
44          */
45         kReuse_OnShrink
46     };
47 
48     /**
49      *  Reallocates the block to a new size. The ptr may or may not change.
50      */
51     void* reset(size_t size = 0, OnShrink shrink = kAlloc_OnShrink) {
52         if (size != fSize && (size > fSize || kReuse_OnShrink != shrink)) {
53             fPtr.reset(size ? sk_malloc_throw(size) : nullptr);
54             fSize = size;
55         }
56         return fPtr.get();
57     }
58 
59     /**
60      *  Return the allocated block.
61      */
get()62     void* get() { return fPtr.get(); }
get()63     const void* get() const { return fPtr.get(); }
64 
65    /** Transfer ownership of the current ptr to the caller, setting the
66        internal reference to null. Note the caller is reponsible for calling
67        sk_free on the returned address.
68     */
release()69     void* release() {
70         fSize = 0;
71         return fPtr.release();
72     }
73 
74 private:
75     struct WrapFree {
operatorWrapFree76         void operator()(void* p) { sk_free(p); }
77     };
78     std::unique_ptr<void, WrapFree> fPtr;
79     size_t fSize;  // can be larger than the requested size (see kReuse)
80 };
81 #define SkAutoMalloc(...) SK_REQUIRE_LOCAL_VAR(SkAutoMalloc)
82 
83 /**
84  *  Manage an allocated block of memory. If the requested size is <= kSizeRequested (or slightly
85  *  more), then the allocation will come from the stack rather than the heap. This object is the
86  *  sole manager of the lifetime of the block, so the caller must not call sk_free() or delete on
87  *  the block.
88  */
89 template <size_t kSizeRequested> class SkAutoSMalloc : SkNoncopyable {
90 public:
91     /**
92      *  Creates initially empty storage. get() returns a ptr, but it is to a zero-byte allocation.
93      *  Must call reset(size) to return an allocated block.
94      */
SkAutoSMalloc()95     SkAutoSMalloc() {
96         fPtr = fStorage;
97         fSize = kSize;
98     }
99 
100     /**
101      *  Allocate a block of the specified size. If size <= kSizeRequested (or slightly more), then
102      *  the allocation will come from the stack, otherwise it will be dynamically allocated.
103      */
SkAutoSMalloc(size_t size)104     explicit SkAutoSMalloc(size_t size) {
105         fPtr = fStorage;
106         fSize = kSize;
107         this->reset(size);
108     }
109 
110     /**
111      *  Free the allocated block (if any). If the block was small enough to have been allocated on
112      *  the stack, then this does nothing.
113      */
~SkAutoSMalloc()114     ~SkAutoSMalloc() {
115         if (fPtr != (void*)fStorage) {
116             sk_free(fPtr);
117         }
118     }
119 
120     /**
121      *  Return the allocated block. May return non-null even if the block is of zero size. Since
122      *  this may be on the stack or dynamically allocated, the caller must not call sk_free() on it,
123      *  but must rely on SkAutoSMalloc to manage it.
124      */
get()125     void* get() const { return fPtr; }
126 
127     /**
128      *  Return a new block of the requested size, freeing (as necessary) any previously allocated
129      *  block. As with the constructor, if size <= kSizeRequested (or slightly more) then the return
130      *  block may be allocated locally, rather than from the heap.
131      */
132     void* reset(size_t size,
133                 SkAutoMalloc::OnShrink shrink = SkAutoMalloc::kAlloc_OnShrink,
134                 bool* didChangeAlloc = nullptr) {
135         size = (size < kSize) ? kSize : size;
136         bool alloc = size != fSize && (SkAutoMalloc::kAlloc_OnShrink == shrink || size > fSize);
137         if (didChangeAlloc) {
138             *didChangeAlloc = alloc;
139         }
140         if (alloc) {
141             if (fPtr != (void*)fStorage) {
142                 sk_free(fPtr);
143             }
144 
145             if (size == kSize) {
146                 SkASSERT(fPtr != fStorage); // otherwise we lied when setting didChangeAlloc.
147                 fPtr = fStorage;
148             } else {
149                 fPtr = sk_malloc_throw(size);
150             }
151 
152             fSize = size;
153         }
154         SkASSERT(fSize >= size && fSize >= kSize);
155         SkASSERT((fPtr == fStorage) || fSize > kSize);
156         return fPtr;
157     }
158 
159 private:
160     // Align up to 32 bits.
161     static const size_t kSizeAlign4 = SkAlign4(kSizeRequested);
162 #if defined(SK_BUILD_FOR_GOOGLE3)
163     // Stack frame size is limited for SK_BUILD_FOR_GOOGLE3. 4k is less than the actual max, but some functions
164     // have multiple large stack allocations.
165     static const size_t kMaxBytes = 4 * 1024;
166     static const size_t kSize = kSizeRequested > kMaxBytes ? kMaxBytes : kSizeAlign4;
167 #else
168     static const size_t kSize = kSizeAlign4;
169 #endif
170 
171     void*       fPtr;
172     size_t      fSize;  // can be larger than the requested size (see kReuse)
173     uint32_t    fStorage[kSize >> 2];
174 };
175 // Can't guard the constructor because it's a template class.
176 
177 #endif
178