2018-06-20 14:51:55 +00:00
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package memsize
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import (
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"math/bits"
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)
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const (
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uintptrBits = 32 << (uint64(^uintptr(0)) >> 63)
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uintptrBytes = uintptrBits / 8
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bmBlockRange = 1 * 1024 * 1024 // bytes covered by bmBlock
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bmBlockWords = bmBlockRange / uintptrBits
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)
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// bitmap is a sparse bitmap.
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type bitmap struct {
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blocks map[uintptr]*bmBlock
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}
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func newBitmap() *bitmap {
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return &bitmap{make(map[uintptr]*bmBlock)}
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}
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// markRange sets n consecutive bits starting at addr.
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func (b *bitmap) markRange(addr, n uintptr) {
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for end := addr + n; addr < end; {
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block, baddr := b.block(addr)
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for i := baddr; i < bmBlockRange && addr < end; i++ {
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block.mark(i)
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addr++
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}
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}
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}
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// isMarked returns the value of the bit at the given address.
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func (b *bitmap) isMarked(addr uintptr) bool {
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block, baddr := b.block(addr)
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return block.isMarked(baddr)
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}
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2019-06-09 07:24:20 +00:00
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// countRange returns the number of set bits in the range (addr,addr+n).
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2018-06-20 14:51:55 +00:00
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func (b *bitmap) countRange(addr, n uintptr) uintptr {
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c := uintptr(0)
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for end := addr + n; addr < end; {
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block, baddr := b.block(addr)
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bend := uintptr(bmBlockRange - 1)
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if baddr+(end-addr) < bmBlockRange {
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bend = baddr + (end - addr)
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}
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c += uintptr(block.count(baddr, bend))
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// Move addr to next block.
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addr += bmBlockRange - baddr
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}
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return c
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}
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// block finds the block corresponding to the given memory address.
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// It also returns the block's starting address.
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func (b *bitmap) block(addr uintptr) (*bmBlock, uintptr) {
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index := addr / bmBlockRange
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block := b.blocks[index]
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if block == nil {
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block = new(bmBlock)
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b.blocks[index] = block
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}
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return block, addr % bmBlockRange
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}
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// size returns the sum of the byte sizes of all blocks.
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func (b *bitmap) size() uintptr {
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return uintptr(len(b.blocks)) * bmBlockWords * uintptrBytes
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}
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// utilization returns the mean percentage of one bits across all blocks.
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func (b *bitmap) utilization() float32 {
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var avg float32
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for _, block := range b.blocks {
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avg += float32(block.count(0, bmBlockRange-1)) / float32(bmBlockRange)
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}
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return avg / float32(len(b.blocks))
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}
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// bmBlock is a bitmap block.
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type bmBlock [bmBlockWords]uintptr
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// mark sets the i'th bit to one.
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func (b *bmBlock) mark(i uintptr) {
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b[i/uintptrBits] |= 1 << (i % uintptrBits)
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}
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// isMarked returns the value of the i'th bit.
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func (b *bmBlock) isMarked(i uintptr) bool {
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return (b[i/uintptrBits] & (1 << (i % uintptrBits))) != 0
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}
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2019-06-09 07:24:20 +00:00
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// count returns the number of set bits in the range (start,end).
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2018-06-20 14:51:55 +00:00
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func (b *bmBlock) count(start, end uintptr) (count int) {
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br := b[start/uintptrBits : end/uintptrBits+1]
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for i, w := range br {
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if i == 0 {
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w &= blockmask(start)
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}
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if i == len(br)-1 {
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w &^= blockmask(end)
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}
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count += onesCountPtr(w)
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}
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return count
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}
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func blockmask(x uintptr) uintptr {
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return ^uintptr(0) << (x % uintptrBits)
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}
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func onesCountPtr(x uintptr) int {
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if uintptrBits == 64 {
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return bits.OnesCount64(uint64(x))
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}
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return bits.OnesCount32(uint32(x))
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}
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