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355 lines
9.4 KiB
355 lines
9.4 KiB
/*
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* include/asm-v850/bitops.h -- Bit operations
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*
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* Copyright (C) 2001,02,03,04,05 NEC Electronics Corporation
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* Copyright (C) 2001,02,03,04,05 Miles Bader <miles@gnu.org>
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* Copyright (C) 1992 Linus Torvalds.
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*
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* This file is subject to the terms and conditions of the GNU General
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* Public License. See the file COPYING in the main directory of this
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* archive for more details.
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*/
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#ifndef __V850_BITOPS_H__
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#define __V850_BITOPS_H__
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#include <linux/config.h>
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#include <linux/compiler.h> /* unlikely */
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#include <asm/byteorder.h> /* swab32 */
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#include <asm/system.h> /* interrupt enable/disable */
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#ifdef __KERNEL__
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/*
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* The __ functions are not atomic
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*/
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/*
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* ffz = Find First Zero in word. Undefined if no zero exists,
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* so code should check against ~0UL first..
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*/
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static inline unsigned long ffz (unsigned long word)
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{
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unsigned long 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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return result;
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}
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/* In the following constant-bit-op macros, a "g" constraint is used when
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we really need an integer ("i" constraint). This is to avoid
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warnings/errors from the compiler in the case where the associated
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operand _isn't_ an integer, and shouldn't produce bogus assembly because
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use of that form is protected by a guard statement that checks for
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constants, and should otherwise be removed by the optimizer. This
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_usually_ works -- however, __builtin_constant_p returns true for a
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variable with a known constant value too, and unfortunately gcc will
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happily put the variable in a register and use the register for the "g"
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constraint'd asm operand. To avoid the latter problem, we add a
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constant offset to the operand and subtract it back in the asm code;
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forcing gcc to do arithmetic on the value is usually enough to get it
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to use a real constant value. This is horrible, and ultimately
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unreliable too, but it seems to work for now (hopefully gcc will offer
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us more control in the future, so we can do a better job). */
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#define __const_bit_op(op, nr, addr) \
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({ __asm__ (op " (%0 - 0x123), %1" \
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:: "g" (((nr) & 0x7) + 0x123), \
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"m" (*((char *)(addr) + ((nr) >> 3))) \
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: "memory"); })
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#define __var_bit_op(op, nr, addr) \
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({ int __nr = (nr); \
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__asm__ (op " %0, [%1]" \
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:: "r" (__nr & 0x7), \
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"r" ((char *)(addr) + (__nr >> 3)) \
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: "memory"); })
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#define __bit_op(op, nr, addr) \
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((__builtin_constant_p (nr) && (unsigned)(nr) <= 0x7FFFF) \
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? __const_bit_op (op, nr, addr) \
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: __var_bit_op (op, nr, addr))
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#define __set_bit(nr, addr) __bit_op ("set1", nr, addr)
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#define __clear_bit(nr, addr) __bit_op ("clr1", nr, addr)
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#define __change_bit(nr, addr) __bit_op ("not1", nr, addr)
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/* The bit instructions used by `non-atomic' variants are actually atomic. */
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#define set_bit __set_bit
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#define clear_bit __clear_bit
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#define change_bit __change_bit
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#define __const_tns_bit_op(op, nr, addr) \
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({ int __tns_res; \
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__asm__ __volatile__ ( \
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"tst1 (%1 - 0x123), %2; setf nz, %0; " op " (%1 - 0x123), %2" \
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: "=&r" (__tns_res) \
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: "g" (((nr) & 0x7) + 0x123), \
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"m" (*((char *)(addr) + ((nr) >> 3))) \
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: "memory"); \
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__tns_res; \
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})
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#define __var_tns_bit_op(op, nr, addr) \
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({ int __nr = (nr); \
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int __tns_res; \
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__asm__ __volatile__ ( \
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"tst1 %1, [%2]; setf nz, %0; " op " %1, [%2]" \
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: "=&r" (__tns_res) \
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: "r" (__nr & 0x7), \
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"r" ((char *)(addr) + (__nr >> 3)) \
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: "memory"); \
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__tns_res; \
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})
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#define __tns_bit_op(op, nr, addr) \
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((__builtin_constant_p (nr) && (unsigned)(nr) <= 0x7FFFF) \
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? __const_tns_bit_op (op, nr, addr) \
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: __var_tns_bit_op (op, nr, addr))
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#define __tns_atomic_bit_op(op, nr, addr) \
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({ int __tns_atomic_res, __tns_atomic_flags; \
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local_irq_save (__tns_atomic_flags); \
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__tns_atomic_res = __tns_bit_op (op, nr, addr); \
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local_irq_restore (__tns_atomic_flags); \
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__tns_atomic_res; \
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})
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#define __test_and_set_bit(nr, addr) __tns_bit_op ("set1", nr, addr)
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#define test_and_set_bit(nr, addr) __tns_atomic_bit_op ("set1", nr, addr)
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#define __test_and_clear_bit(nr, addr) __tns_bit_op ("clr1", nr, addr)
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#define test_and_clear_bit(nr, addr) __tns_atomic_bit_op ("clr1", nr, addr)
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#define __test_and_change_bit(nr, addr) __tns_bit_op ("not1", nr, addr)
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#define test_and_change_bit(nr, addr) __tns_atomic_bit_op ("not1", nr, addr)
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#define __const_test_bit(nr, addr) \
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({ int __test_bit_res; \
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__asm__ __volatile__ ("tst1 (%1 - 0x123), %2; setf nz, %0" \
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: "=r" (__test_bit_res) \
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: "g" (((nr) & 0x7) + 0x123), \
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"m" (*((const char *)(addr) + ((nr) >> 3)))); \
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__test_bit_res; \
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})
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static inline int __test_bit (int nr, const void *addr)
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{
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int res;
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__asm__ __volatile__ ("tst1 %1, [%2]; setf nz, %0"
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: "=r" (res)
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: "r" (nr & 0x7), "r" (addr + (nr >> 3)));
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return res;
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}
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#define test_bit(nr,addr) \
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((__builtin_constant_p (nr) && (unsigned)(nr) <= 0x7FFFF) \
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? __const_test_bit ((nr), (addr)) \
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: __test_bit ((nr), (addr)))
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/* clear_bit doesn't provide any barrier for the compiler. */
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#define smp_mb__before_clear_bit() barrier ()
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#define smp_mb__after_clear_bit() barrier ()
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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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static inline int find_next_zero_bit(const void *addr, int size, int offset)
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{
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unsigned long *p = ((unsigned long *) addr) + (offset >> 5);
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unsigned long result = offset & ~31UL;
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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 &= 31UL;
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if (offset) {
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tmp = * (p++);
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tmp |= ~0UL >> (32-offset);
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if (size < 32)
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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 -= 32;
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result += 32;
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}
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while (size & ~31UL) {
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if (~ (tmp = * (p++)))
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goto found_middle;
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result += 32;
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size -= 32;
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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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found_middle:
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return result + ffz (tmp);
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}
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/* This is the same as generic_ffs, but we can't use that because it's
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inline and the #include order mucks things up. */
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static inline int generic_ffs_for_find_next_bit(int x)
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{
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int r = 1;
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if (!x)
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return 0;
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if (!(x & 0xffff)) {
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x >>= 16;
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r += 16;
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}
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if (!(x & 0xff)) {
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x >>= 8;
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r += 8;
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}
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if (!(x & 0xf)) {
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x >>= 4;
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r += 4;
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}
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if (!(x & 3)) {
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x >>= 2;
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r += 2;
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}
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if (!(x & 1)) {
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x >>= 1;
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r += 1;
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}
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return r;
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}
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/*
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* Find next one bit in a bitmap reasonably efficiently.
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*/
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static __inline__ unsigned long find_next_bit(const unsigned long *addr,
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unsigned long size, unsigned long offset)
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{
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unsigned int *p = ((unsigned int *) addr) + (offset >> 5);
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unsigned int result = offset & ~31UL;
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unsigned int 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 &= 31UL;
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if (offset) {
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tmp = *p++;
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tmp &= ~0UL << offset;
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if (size < 32)
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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 -= 32;
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result += 32;
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}
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while (size >= 32) {
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if ((tmp = *p++) != 0)
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goto found_middle;
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result += 32;
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size -= 32;
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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 >> (32 - size);
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if (tmp == 0UL) /* Are any bits set? */
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return result + size; /* Nope. */
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found_middle:
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return result + generic_ffs_for_find_next_bit(tmp);
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}
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/*
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* find_first_bit - find the first set bit in a memory region
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*/
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#define find_first_bit(addr, size) \
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find_next_bit((addr), (size), 0)
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#define ffs(x) generic_ffs (x)
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#define fls(x) generic_fls (x)
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#define __ffs(x) ffs(x)
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/*
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* This is just `generic_ffs' from <linux/bitops.h>, except that it assumes
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* that at least one bit is set, and returns the real index of the bit
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* (rather than the bit index + 1, like ffs does).
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*/
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static inline int sched_ffs(int x)
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{
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int r = 0;
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if (!(x & 0xffff)) {
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x >>= 16;
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r += 16;
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}
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if (!(x & 0xff)) {
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x >>= 8;
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r += 8;
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}
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if (!(x & 0xf)) {
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x >>= 4;
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r += 4;
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}
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if (!(x & 3)) {
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x >>= 2;
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r += 2;
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}
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if (!(x & 1)) {
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x >>= 1;
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r += 1;
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}
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return r;
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}
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/*
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* Every architecture must define this function. It's the fastest
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* way of searching a 140-bit bitmap where the first 100 bits are
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* unlikely to be set. It's guaranteed that at least one of the 140
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* bits is set.
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*/
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static inline int sched_find_first_bit(unsigned long *b)
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{
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unsigned offs = 0;
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while (! *b) {
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b++;
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offs += 32;
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}
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return sched_ffs (*b) + offs;
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}
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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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#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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#define ext2_set_bit test_and_set_bit
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#define ext2_set_bit_atomic(l,n,a) test_and_set_bit(n,a)
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#define ext2_clear_bit test_and_clear_bit
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#define ext2_clear_bit_atomic(l,n,a) test_and_clear_bit(n,a)
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#define ext2_test_bit test_bit
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#define ext2_find_first_zero_bit find_first_zero_bit
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#define ext2_find_next_zero_bit find_next_zero_bit
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/* Bitmap functions for the minix filesystem. */
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#define minix_test_and_set_bit test_and_set_bit
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#define minix_set_bit set_bit
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#define minix_test_and_clear_bit test_and_clear_bit
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#define minix_test_bit test_bit
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#define minix_find_first_zero_bit find_first_zero_bit
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#endif /* __KERNEL__ */
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#endif /* __V850_BITOPS_H__ */
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