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sql_bitmap.h
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/* Copyright (c) 2003, 2013, Oracle and/or its affiliates Copyright (c) 2009, 2013, Monty Program Ab. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /* Implementation of a bitmap type. The idea with this is to be able to handle any constant number of bits but also be able to use 32 or 64 bits bitmaps very efficiently */ #ifndef SQL_BITMAP_INCLUDED #define SQL_BITMAP_INCLUDED #include <my_sys.h> #include <my_bitmap.h> #include <my_bit.h> /* An iterator to quickly walk over bits in ulonglong bitmap. */ class Table_map_iterator { ulonglong bmp; public: Table_map_iterator(ulonglong t): bmp(t){} uint next_bit() { if (!bmp) return BITMAP_END; uint bit= my_find_first_bit(bmp); bmp &= ~(1ULL << bit); return bit; } int operator++(int) { return next_bit(); } enum { BITMAP_END= 64 }; }; template <uint width> class Bitmap { /* Workaround GCC optimizer bug (generating SSE instuctions on unaligned data) */ #if defined (__GNUC__) && defined(__x86_64__) && (__GNUC__ < 6) && !defined(__clang__) #define NEED_GCC_NO_SSE_WORKAROUND #endif #ifdef NEED_GCC_NO_SSE_WORKAROUND #pragma GCC push_options #pragma GCC target ("no-sse") #endif private: static const int BITS_PER_ELEMENT= sizeof(ulonglong) * 8; static const int ARRAY_ELEMENTS= (width + BITS_PER_ELEMENT - 1) / BITS_PER_ELEMENT; static const ulonglong ALL_BITS_SET= ULLONG_MAX; ulonglong buffer[ARRAY_ELEMENTS]; uint bit_index(uint n) const { DBUG_ASSERT(n < width); return ARRAY_ELEMENTS == 1 ? 0 : n / BITS_PER_ELEMENT; } ulonglong bit_mask(uint n) const { DBUG_ASSERT(n < width); return ARRAY_ELEMENTS == 1 ? 1ULL << n : 1ULL << (n % BITS_PER_ELEMENT); } ulonglong last_element_mask(int n) const { DBUG_ASSERT(n % BITS_PER_ELEMENT != 0); return bit_mask(n) - 1; } public: /* The default constructor does nothing. The caller is supposed to either zero the memory or to call set_all()/clear_all()/set_prefix() to initialize bitmap. */ Bitmap() = default; explicit Bitmap(uint prefix) { set_prefix(prefix); } void init(uint prefix) { set_prefix(prefix); } uint length() const { return width; } void set_bit(uint n) { buffer[bit_index(n)] |= bit_mask(n); } void clear_bit(uint n) { buffer[bit_index(n)] &= ~bit_mask(n); } bool is_set(uint n) const { return buffer[bit_index(n)] & bit_mask(n); } void set_prefix(uint prefix_size) { set_if_smaller(prefix_size, width); size_t idx= prefix_size / BITS_PER_ELEMENT; for (size_t i= 0; i < idx; i++) buffer[i]= ALL_BITS_SET; if (prefix_size % BITS_PER_ELEMENT) buffer[idx++]= last_element_mask(prefix_size); for (size_t i= idx; i < ARRAY_ELEMENTS; i++) buffer[i]= 0; } bool is_prefix(uint prefix_size) const { DBUG_ASSERT(prefix_size <= width); size_t idx= prefix_size / BITS_PER_ELEMENT; for (size_t i= 0; i < idx; i++) if (buffer[i] != ALL_BITS_SET) return false; if (prefix_size % BITS_PER_ELEMENT) if (buffer[idx++] != last_element_mask(prefix_size)) return false; for (size_t i= idx; i < ARRAY_ELEMENTS; i++) if (buffer[i] != 0) return false; return true; } void set_all() { if (width % BITS_PER_ELEMENT) set_prefix(width); else if (ARRAY_ELEMENTS > 1) memset(buffer, 0xff, sizeof(buffer)); else buffer[0] = ALL_BITS_SET; } void clear_all() { if (ARRAY_ELEMENTS > 1) memset(buffer, 0, sizeof(buffer)); else buffer[0]= 0; } void intersect(const Bitmap& map2) { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) buffer[i] &= map2.buffer[i]; } private: /* Intersect with a bitmap represented as as longlong. In addition, pad the rest of the bitmap with 0 or 1 bits depending on pad_with_ones parameter. */ void intersect_and_pad(ulonglong map2buff, bool pad_with_ones) { buffer[0] &= map2buff; for (size_t i= 1; i < ARRAY_ELEMENTS; i++) buffer[i]= pad_with_ones ? ALL_BITS_SET : 0; if (ARRAY_ELEMENTS > 1 && (width % BITS_PER_ELEMENT) && pad_with_ones) buffer[ARRAY_ELEMENTS - 1]= last_element_mask(width); } public: void intersect(ulonglong map2buff) { intersect_and_pad(map2buff, 0); } /* Use highest bit for all bits above first element. */ void intersect_extended(ulonglong map2buff) { intersect_and_pad(map2buff, (map2buff & (1ULL << 63))); } void subtract(const Bitmap& map2) { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) buffer[i] &= ~(map2.buffer[i]); } void merge(const Bitmap& map2) { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) buffer[i] |= map2.buffer[i]; } bool is_clear_all() const { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) if (buffer[i]) return false; return true; } bool is_subset(const Bitmap& map2) const { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) if (buffer[i] & ~(map2.buffer[i])) return false; return true; } bool is_overlapping(const Bitmap& map2) const { for (size_t i= 0; i < ARRAY_ELEMENTS; i++) if (buffer[i] & map2.buffer[i]) return true; return false; } bool operator==(const Bitmap& map2) const { if (ARRAY_ELEMENTS > 1) return !memcmp(buffer,map2.buffer,sizeof(buffer)); return buffer[0] == map2.buffer[0]; } bool operator!=(const Bitmap& map2) const { return !(*this == map2); } /* Print hexadecimal representation of bitmap. Truncate trailing zeros. */ char *print(char *buf) const { size_t last; /*index of the last non-zero element, or 0. */ for (last= ARRAY_ELEMENTS - 1; last && !buffer[last]; last--){} const int HEX_DIGITS_PER_ELEMENT= BITS_PER_ELEMENT / 4; for (size_t i= 0; i < last; i++) { ulonglong num = buffer[i]; uint shift = BITS_PER_ELEMENT - 4; size_t pos= i * HEX_DIGITS_PER_ELEMENT; for (size_t j= 0; j < HEX_DIGITS_PER_ELEMENT; j++) { buf[pos + j]= _dig_vec_upper[(num >> shift) & 0xf]; shift += 4; } } longlong2str(buffer[last], buf, 16); return buf; } ulonglong to_ulonglong() const { return buffer[0]; } uint bits_set() { uint res= 0; for (size_t i= 0; i < ARRAY_ELEMENTS; i++) res += my_count_bits(buffer[i]); return res; } class Iterator { const Bitmap& map; uint offset; Table_map_iterator tmi; public: Iterator(const Bitmap<width>& map2) : map(map2), offset(0), tmi(map2.buffer[0]) {} int operator++(int) { for (;;) { int nextbit= tmi++; if (nextbit != Table_map_iterator::BITMAP_END) return offset + nextbit; if (offset + BITS_PER_ELEMENT >= map.length()) return BITMAP_END; offset += BITS_PER_ELEMENT; tmi= Table_map_iterator(map.buffer[offset / BITS_PER_ELEMENT]); } } enum { BITMAP_END = width }; }; #ifdef NEED_GCC_NO_SSE_WORKAROUND #pragma GCC pop_options #undef NEED_GCC_NO_SSE_WORKAROUND #endif }; typedef Bitmap<MAX_INDEXES> key_map; /* Used for finding keys */ #endif /* SQL_BITMAP_INCLUDED */