"Post Window" -> "Post window" prevents it being seen as two separate
[supercollider.git] / include / lang / PowerOfTwoAllocPool.h
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1 /*
2 SuperCollider real time audio synthesis system
3 Copyright (c) 2002 James McCartney. All rights reserved.
4 http://www.audiosynth.com
6 This program is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2 of the License, or
9 (at your option) any later version.
11 This program is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with this program; if not, write to the Free Software
18 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 // Implements a power of two size class allocator.
22 // There is no consolidation of free space. Once a chunk is allocated it
23 // remains at that size from then on whether free or allocated.
24 // It uses AdvancingAllocPool as its parent allocator.
25 // It is very fast. This is used to allocate Unit output buffers.
27 #ifndef _PowerOfTwoAllocPool_
28 #define _PowerOfTwoAllocPool_
30 #include <stdexcept>
31 #include <stdlib.h>
32 #include "clz.h"
33 #include "AdvancingAllocPool.h"
34 #include "SC_AllocPool.h"
35 void post(const char *fmt, ...);
36 void postbuf(const char *fmt, ...);
38 template<class Hdr, class Obj, class Elem, int LargeObjSizeClass, int Align>
39 class PowerOfTwoAllocPool
41 public:
42 PowerOfTwoAllocPool(::AllocPool *inPool,
43 size_t initSize = 64*1024,
44 size_t growSize = 64*1024
47 mLargeObjPool = inPool;
48 mNumLargeObjects = 0;
49 mNumAlloc = 0;
50 mNumFree = 0;
51 size_t tooBigSize = (sizeof(Hdr) + (sizeof(Elem) << (LargeObjSizeClass-1))) + 1;
52 mSmallObjPool.Init(inPool, initSize, growSize, tooBigSize);
53 Init();
54 //assert(SanityCheck());
56 ~PowerOfTwoAllocPool()
58 //assert(SanityCheck());
59 //assert(mNumLargeObjects == 0); // you have to free the big ones yourself
60 mSmallObjPool.FreeAll();
63 Obj* Alloc(int32 inNumElems)
65 //mNumAlloc++;
66 //assert(SanityCheck());
67 int sizeclass = LOG2CEIL(inNumElems);
68 if (sizeclass >= LargeObjSizeClass) {
69 mNumLargeObjects++;
70 size_t size = sizeof(Hdr) + (sizeof(Elem) * inNumElems);
71 return (Obj*)mLargeObjPool->Alloc(size);
74 // get from free list
75 Obj* obj = mFreeLists[sizeclass];
76 if (obj != NULL) {
77 // set free list to next element.
78 mFreeLists[sizeclass] = *(Obj**)obj;
79 } else {
80 // have to allocate it
81 size_t size = mSizes[sizeclass];
82 obj = (Obj*)mSmallObjPool.Alloc(size);
83 if (!obj) throw runtime_error("PowerOfTwoAllocPool out of memory");
85 //obj->mMagic = 'magk';
86 //assert(SanityCheck());
87 return obj;
89 void Free(Obj* inObjPtr)
91 //mNumFree++;
92 //assert(SanityCheck());
93 if (inObjPtr == 0) return; /* free(0) has no effect */
94 /*if (inObjPtr->mMagic != 'magk') {
95 postbuf("bad object\n");
96 throw runtime_error("bad object");
97 }*/
98 int sizeclass = inObjPtr->SizeClass();
99 if (sizeclass >= LargeObjSizeClass) {
100 mLargeObjPool->Free(inObjPtr);
101 mNumLargeObjects--;
102 } else {
103 Obj* nextfree = mFreeLists[sizeclass];
104 mFreeLists[sizeclass] = inObjPtr;
105 *(Obj**)inObjPtr = nextfree;
107 //assert(SanityCheck());
109 void FreeAll()
111 //assert(mNumLargeObjects == 0); // you have to free the big ones yourself
112 mSmallObjPool.FreeAll();
113 Init();
116 bool SanityCheck()
118 //postbuf("PowerOfTwoAllocPool::SanityCheck %d %d\n", mNumAlloc, mNumFree);
119 mLargeObjPool->DoCheckPool();
120 mSmallObjPool.SanityCheck();
121 for (int i=0; i<LargeObjSizeClass; ++i) {
122 Obj* obj = mFreeLists[i];
123 for (int j=0; obj; ++j) {
124 if (j>=1000) {
125 post("linked loop??\n");
126 throw runtime_error("linked loop??\n");
127 return false;
129 obj = *(Obj**)obj;
132 return true;
134 private:
135 void Init()
137 for (int i=0; i<LargeObjSizeClass; ++i) {
138 mFreeLists[i] = NULL;
139 size_t size = sizeof(Hdr) + (sizeof(Elem) << i);
140 mSizes[i] = (size + (Align-1)) & ~(Align-1); // alignment
144 Obj* mFreeLists[LargeObjSizeClass];
145 size_t mSizes[LargeObjSizeClass];
146 AllocPool* mLargeObjPool;
147 AdvancingAllocPool mSmallObjPool;
148 int mNumLargeObjects;
149 int mNumAlloc, mNumFree;
153 #endif