2010-12-03 05:34:57 +01:00
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// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Malloc small size classes.
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//
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// See malloc.h for overview.
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//
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// The size classes are chosen so that rounding an allocation
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// request up to the next size class wastes at most 12.5% (1.125x).
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//
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// Each size class has its own page count that gets allocated
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// and chopped up when new objects of the size class are needed.
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// That page count is chosen so that chopping up the run of
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// pages into objects of the given size wastes at most 12.5% (1.125x)
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// of the memory. It is not necessary that the cutoff here be
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// the same as above.
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//
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// The two sources of waste multiply, so the worst possible case
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// for the above constraints would be that allocations of some
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// size might have a 26.6% (1.266x) overhead.
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// In practice, only one of the wastes comes into play for a
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// given size (sizes < 512 waste mainly on the round-up,
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// sizes > 512 waste mainly on the page chopping).
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//
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// TODO(rsc): Compute max waste for any given size.
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#include "runtime.h"
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2011-10-27 01:57:58 +02:00
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#include "arch.h"
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2010-12-03 05:34:57 +01:00
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#include "malloc.h"
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int32 runtime_class_to_size[NumSizeClasses];
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int32 runtime_class_to_allocnpages[NumSizeClasses];
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int32 runtime_class_to_transfercount[NumSizeClasses];
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// The SizeToClass lookup is implemented using two arrays,
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// one mapping sizes <= 1024 to their class and one mapping
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// sizes >= 1024 and <= MaxSmallSize to their class.
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// All objects are 8-aligned, so the first array is indexed by
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// the size divided by 8 (rounded up). Objects >= 1024 bytes
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// are 128-aligned, so the second array is indexed by the
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// size divided by 128 (rounded up). The arrays are filled in
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// by InitSizes.
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static int32 size_to_class8[1024/8 + 1];
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static int32 size_to_class128[(MaxSmallSize-1024)/128 + 1];
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int32
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runtime_SizeToClass(int32 size)
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{
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if(size > MaxSmallSize)
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runtime_throw("SizeToClass - invalid size");
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if(size > 1024-8)
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return size_to_class128[(size-1024+127) >> 7];
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return size_to_class8[(size+7)>>3];
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}
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void
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runtime_InitSizes(void)
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{
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2011-03-17 00:05:44 +01:00
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int32 align, sizeclass, size, nextsize, n;
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2010-12-03 05:34:57 +01:00
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uint32 i;
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uintptr allocsize, npages;
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// Initialize the runtime_class_to_size table (and choose class sizes in the process).
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runtime_class_to_size[0] = 0;
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sizeclass = 1; // 0 means no class
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align = 8;
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for(size = align; size <= MaxSmallSize; size += align) {
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if((size&(size-1)) == 0) { // bump alignment once in a while
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if(size >= 2048)
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align = 256;
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else if(size >= 128)
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align = size / 8;
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else if(size >= 16)
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align = 16; // required for x86 SSE instructions, if we want to use them
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}
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if((align&(align-1)) != 0)
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runtime_throw("InitSizes - bug");
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// Make the allocnpages big enough that
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// the leftover is less than 1/8 of the total,
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// so wasted space is at most 12.5%.
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allocsize = PageSize;
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2011-03-17 00:05:44 +01:00
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while(allocsize%size > allocsize/8)
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2010-12-03 05:34:57 +01:00
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allocsize += PageSize;
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npages = allocsize >> PageShift;
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// If the previous sizeclass chose the same
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// allocation size and fit the same number of
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// objects into the page, we might as well
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// use just this size instead of having two
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// different sizes.
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if(sizeclass > 1
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&& (int32)npages == runtime_class_to_allocnpages[sizeclass-1]
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2011-03-17 00:05:44 +01:00
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&& allocsize/size == allocsize/runtime_class_to_size[sizeclass-1]) {
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2010-12-03 05:34:57 +01:00
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runtime_class_to_size[sizeclass-1] = size;
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continue;
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}
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runtime_class_to_allocnpages[sizeclass] = npages;
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runtime_class_to_size[sizeclass] = size;
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sizeclass++;
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}
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if(sizeclass != NumSizeClasses) {
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2012-05-24 22:44:34 +02:00
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runtime_printf("sizeclass=%d NumSizeClasses=%d\n", sizeclass, NumSizeClasses);
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2010-12-03 05:34:57 +01:00
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runtime_throw("InitSizes - bad NumSizeClasses");
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}
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// Initialize the size_to_class tables.
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nextsize = 0;
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for (sizeclass = 1; sizeclass < NumSizeClasses; sizeclass++) {
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for(; nextsize < 1024 && nextsize <= runtime_class_to_size[sizeclass]; nextsize+=8)
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size_to_class8[nextsize/8] = sizeclass;
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if(nextsize >= 1024)
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for(; nextsize <= runtime_class_to_size[sizeclass]; nextsize += 128)
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size_to_class128[(nextsize-1024)/128] = sizeclass;
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}
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// Double-check SizeToClass.
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if(0) {
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for(n=0; n < MaxSmallSize; n++) {
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sizeclass = runtime_SizeToClass(n);
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if(sizeclass < 1 || sizeclass >= NumSizeClasses || runtime_class_to_size[sizeclass] < n) {
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2012-05-24 22:44:34 +02:00
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runtime_printf("size=%d sizeclass=%d runtime_class_to_size=%d\n", n, sizeclass, runtime_class_to_size[sizeclass]);
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runtime_printf("incorrect SizeToClass");
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2010-12-03 05:34:57 +01:00
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goto dump;
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}
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if(sizeclass > 1 && runtime_class_to_size[sizeclass-1] >= n) {
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2012-05-24 22:44:34 +02:00
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runtime_printf("size=%d sizeclass=%d runtime_class_to_size=%d\n", n, sizeclass, runtime_class_to_size[sizeclass]);
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runtime_printf("SizeToClass too big");
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2010-12-03 05:34:57 +01:00
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goto dump;
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}
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}
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}
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// Copy out for statistics table.
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for(i=0; i<nelem(runtime_class_to_size); i++)
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mstats.by_size[i].size = runtime_class_to_size[i];
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// Initialize the runtime_class_to_transfercount table.
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for(sizeclass = 1; sizeclass < NumSizeClasses; sizeclass++) {
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n = 64*1024 / runtime_class_to_size[sizeclass];
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if(n < 2)
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n = 2;
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if(n > 32)
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n = 32;
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runtime_class_to_transfercount[sizeclass] = n;
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}
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return;
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dump:
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if(1){
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runtime_printf("NumSizeClasses=%d\n", NumSizeClasses);
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runtime_printf("runtime_class_to_size:");
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for(sizeclass=0; sizeclass<NumSizeClasses; sizeclass++)
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runtime_printf(" %d", runtime_class_to_size[sizeclass]);
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runtime_printf("\n\n");
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runtime_printf("size_to_class8:");
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for(i=0; i<nelem(size_to_class8); i++)
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runtime_printf(" %d=>%d(%d)\n", i*8, size_to_class8[i], runtime_class_to_size[size_to_class8[i]]);
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runtime_printf("\n");
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runtime_printf("size_to_class128:");
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for(i=0; i<nelem(size_to_class128); i++)
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runtime_printf(" %d=>%d(%d)\n", i*128, size_to_class128[i], runtime_class_to_size[size_to_class128[i]]);
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runtime_printf("\n");
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}
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runtime_throw("InitSizes failed");
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}
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