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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [fs/] [hfs/] [bitops.c] - Rev 1774
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/* * linux/fs/hfs/bitops.c * * Copyright (C) 1996 Paul H. Hargrove * This file may be distributed under the terms of the GNU General Public License. * * This file contains functions to handle bitmaps in "left-to-right" * bit-order such that the MSB of a 32-bit big-endian word is bit 0. * (This corresponds to bit 7 of a 32-bit little-endian word.) * * I have tested and confirmed that the results are identical on the * Intel x86, PowerPC and DEC Alpha processors. * * "XXX" in a comment is a note to myself to consider changing something. */ #include "hfs.h" /*================ Global functions ================*/ /* * hfs_find_zero_bit() * * Description: * Given a block of memory, its length in bits, and a starting bit number, * determine the number of the first zero bits (in left-to-right ordering) * in that range. * * Returns >= 'size' if no zero bits are found in the range. * * Accesses memory in 32-bit aligned chunks of 32-bits and thus * may read beyond the 'size'th bit. */ hfs_u32 hfs_find_zero_bit(const hfs_u32 *start, hfs_u32 size, hfs_u32 offset) { const hfs_u32 *end = start + ((size + 31) >> 5); const hfs_u32 *curr = start + (offset >> 5); int bit = offset % 32; if (offset < size) { /* scan the first partial hfs_u32 for zero bits */ if (bit != 0) { do { if (!hfs_test_bit(bit, curr)) { goto done; } ++bit; } while (bit < 32); bit = 0; ++curr; } /* scan complete hfs_u32s for the first zero bit */ while (curr < end) { if (*curr == ~((hfs_u32)0)) { ++curr; } else { while (hfs_test_bit(bit, curr)) { ++bit; } break; } } done: bit |= (curr - start) << 5; return bit; } else { return size; } } /* * hfs_count_zero_bits() * * Description: * Given a block of memory, its length in bits, and a starting bit number, * determine the number of consecutive zero bits (in left-to-right ordering) * in that range. * * Accesses memory in 32-bit aligned chunks of 32-bits and thus * may read beyond the 'size'th bit. */ hfs_u32 hfs_count_zero_bits(const hfs_u32 *start, hfs_u32 size, hfs_u32 offset) { const hfs_u32 *end = start + ((size + 31) >> 5); const hfs_u32 *curr = start + (offset >> 5); int bit = offset % 32; if (offset < size) { /* scan the first partial hfs_u32 for one bits */ if (bit != 0) { do { if (hfs_test_bit(bit, curr)) { goto done; } ++bit; } while (bit < 32); bit = 0; ++curr; } /* scan complete hfs_u32s for the first one bit */ while (curr < end) { if (*curr == ((hfs_u32)0)) { ++curr; } else { while (!hfs_test_bit(bit, curr)) { ++bit; } break; } } done: bit |= (curr - start) << 5; if (bit > size) { bit = size; } return bit - offset; } else { return 0; } }
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