Import Linux's linux/include/asm-sparc64/bitopts.h.
This is taken from the 2.4.3 Linux sources as shipped on Red Hat 7.1 Alpha.
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sys/gnu/ext2fs/sparc64-bitops.h
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248
sys/gnu/ext2fs/sparc64-bitops.h
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/* $Id: bitops.h,v 1.31 2000/09/23 02:09:21 davem Exp $
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* bitops.h: Bit string operations on the V9.
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*
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* Copyright 1996, 1997 David S. Miller (davem@caip.rutgers.edu)
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*/
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#ifndef _SPARC64_BITOPS_H
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#define _SPARC64_BITOPS_H
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#include <asm/byteorder.h>
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extern long __test_and_set_bit(unsigned long nr, volatile void *addr);
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extern long __test_and_clear_bit(unsigned long nr, volatile void *addr);
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extern long __test_and_change_bit(unsigned long nr, volatile void *addr);
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#define test_and_set_bit(nr,addr) (__test_and_set_bit(nr,addr)!=0)
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#define test_and_clear_bit(nr,addr) (__test_and_clear_bit(nr,addr)!=0)
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#define test_and_change_bit(nr,addr) (__test_and_change_bit(nr,addr)!=0)
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#define set_bit(nr,addr) ((void)__test_and_set_bit(nr,addr))
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#define clear_bit(nr,addr) ((void)__test_and_clear_bit(nr,addr))
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#define change_bit(nr,addr) ((void)__test_and_change_bit(nr,addr))
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#define smp_mb__before_clear_bit() do { } while(0)
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#define smp_mb__after_clear_bit() do { } while(0)
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extern __inline__ int test_bit(int nr, __const__ void *addr)
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{
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return (1UL & (((__const__ long *) addr)[nr >> 6] >> (nr & 63))) != 0UL;
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}
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/* The easy/cheese version for now. */
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extern __inline__ unsigned long ffz(unsigned long word)
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{
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unsigned long result;
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#ifdef ULTRA_HAS_POPULATION_COUNT /* Thanks for nothing Sun... */
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__asm__ __volatile__("
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brz,pn %0, 1f
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neg %0, %%g1
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xnor %0, %%g1, %%g2
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popc %%g2, %0
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1: " : "=&r" (result)
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: "0" (word)
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: "g1", "g2");
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#else
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#if 1 /* def EASY_CHEESE_VERSION */
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result = 0;
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while(word & 1) {
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result++;
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word >>= 1;
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}
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#else
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unsigned long tmp;
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result = 0;
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tmp = ~word & -~word;
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if (!(unsigned)tmp) {
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tmp >>= 32;
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result = 32;
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}
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if (!(unsigned short)tmp) {
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tmp >>= 16;
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result += 16;
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}
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if (!(unsigned char)tmp) {
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tmp >>= 8;
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result += 8;
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}
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if (tmp & 0xf0) result += 4;
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if (tmp & 0xcc) result += 2;
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if (tmp & 0xaa) result ++;
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#endif
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#endif
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return result;
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}
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#ifdef __KERNEL__
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/*
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* ffs: find first bit set. This is defined the same way as
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* the libc and compiler builtin ffs routines, therefore
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* differs in spirit from the above ffz (man ffs).
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*/
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#define ffs(x) generic_ffs(x)
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/*
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* hweightN: returns the hamming weight (i.e. the number
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* of bits set) of a N-bit word
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*/
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#ifdef ULTRA_HAS_POPULATION_COUNT
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extern __inline__ unsigned int hweight32(unsigned int w)
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{
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unsigned int res;
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__asm__ ("popc %1,%0" : "=r" (res) : "r" (w & 0xffffffff));
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return res;
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}
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extern __inline__ unsigned int hweight16(unsigned int w)
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{
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unsigned int res;
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__asm__ ("popc %1,%0" : "=r" (res) : "r" (w & 0xffff));
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return res;
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}
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extern __inline__ unsigned int hweight8(unsigned int w)
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{
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unsigned int res;
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__asm__ ("popc %1,%0" : "=r" (res) : "r" (w & 0xff));
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return res;
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}
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#else
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#define hweight32(x) generic_hweight32(x)
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#define hweight16(x) generic_hweight16(x)
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#define hweight8(x) generic_hweight8(x)
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#endif
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#endif /* __KERNEL__ */
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/* find_next_zero_bit() finds the first zero bit in a bit string of length
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* 'size' bits, starting the search at bit 'offset'. This is largely based
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* on Linus's ALPHA routines, which are pretty portable BTW.
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*/
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extern __inline__ unsigned long find_next_zero_bit(void *addr, unsigned long size, unsigned long offset)
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{
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unsigned long *p = ((unsigned long *) addr) + (offset >> 6);
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unsigned long result = offset & ~63UL;
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unsigned long tmp;
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if (offset >= size)
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return size;
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size -= result;
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offset &= 63UL;
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if (offset) {
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tmp = *(p++);
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tmp |= ~0UL >> (64-offset);
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if (size < 64)
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goto found_first;
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if (~tmp)
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goto found_middle;
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size -= 64;
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result += 64;
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}
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while (size & ~63UL) {
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if (~(tmp = *(p++)))
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goto found_middle;
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result += 64;
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size -= 64;
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}
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if (!size)
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return result;
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tmp = *p;
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found_first:
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tmp |= ~0UL << size;
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if (tmp == ~0UL) /* Are any bits zero? */
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return result + size; /* Nope. */
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found_middle:
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return result + ffz(tmp);
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}
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#define find_first_zero_bit(addr, size) \
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find_next_zero_bit((addr), (size), 0)
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extern long __test_and_set_le_bit(int nr, volatile void *addr);
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extern long __test_and_clear_le_bit(int nr, volatile void *addr);
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#define test_and_set_le_bit(nr,addr) (__test_and_set_le_bit(nr,addr)!=0)
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#define test_and_clear_le_bit(nr,addr) (__test_and_clear_le_bit(nr,addr)!=0)
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#define set_le_bit(nr,addr) ((void)__test_and_set_le_bit(nr,addr))
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#define clear_le_bit(nr,addr) ((void)__test_and_clear_le_bit(nr,addr))
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extern __inline__ int test_le_bit(int nr, __const__ void * addr)
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{
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int mask;
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__const__ unsigned char *ADDR = (__const__ unsigned char *) addr;
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ADDR += nr >> 3;
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mask = 1 << (nr & 0x07);
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return ((mask & *ADDR) != 0);
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}
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#define find_first_zero_le_bit(addr, size) \
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find_next_zero_le_bit((addr), (size), 0)
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extern __inline__ unsigned long find_next_zero_le_bit(void *addr, unsigned long size, unsigned long offset)
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{
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unsigned long *p = ((unsigned long *) addr) + (offset >> 6);
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unsigned long result = offset & ~63UL;
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unsigned long tmp;
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if (offset >= size)
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return size;
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size -= result;
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offset &= 63UL;
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if(offset) {
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tmp = __swab64p(p++);
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tmp |= (~0UL >> (64-offset));
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if(size < 64)
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goto found_first;
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if(~tmp)
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goto found_middle;
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size -= 64;
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result += 64;
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}
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while(size & ~63) {
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if(~(tmp = __swab64p(p++)))
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goto found_middle;
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result += 64;
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size -= 64;
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}
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if(!size)
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return result;
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tmp = __swab64p(p);
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found_first:
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tmp |= (~0UL << size);
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if (tmp == ~0UL) /* Are any bits zero? */
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return result + size; /* Nope. */
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found_middle:
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return result + ffz(tmp);
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}
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#ifdef __KERNEL__
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#define ext2_set_bit test_and_set_le_bit
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#define ext2_clear_bit test_and_clear_le_bit
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#define ext2_test_bit test_le_bit
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#define ext2_find_first_zero_bit find_first_zero_le_bit
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#define ext2_find_next_zero_bit find_next_zero_le_bit
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/* Bitmap functions for the minix filesystem. */
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#define minix_test_and_set_bit(nr,addr) test_and_set_bit(nr,addr)
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#define minix_set_bit(nr,addr) set_bit(nr,addr)
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#define minix_test_and_clear_bit(nr,addr) test_and_clear_bit(nr,addr)
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#define minix_test_bit(nr,addr) test_bit(nr,addr)
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#define minix_find_first_zero_bit(addr,size) find_first_zero_bit(addr,size)
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#endif /* __KERNEL__ */
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#endif /* defined(_SPARC64_BITOPS_H) */
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