LCOV - code coverage report
Current view: top level - lib - list_sort.c (source / functions) Hit Total Coverage
Test: combined.info Lines: 0 72 0.0 %
Date: 2022-04-01 14:17:54 Functions: 0 2 0.0 %
Branches: 0 32 0.0 %

           Branch data     Line data    Source code
       1                 :            : // SPDX-License-Identifier: GPL-2.0
       2                 :            : #include <linux/kernel.h>
       3                 :            : #include <linux/bug.h>
       4                 :            : #include <linux/compiler.h>
       5                 :            : #include <linux/export.h>
       6                 :            : #include <linux/string.h>
       7                 :            : #include <linux/list_sort.h>
       8                 :            : #include <linux/list.h>
       9                 :            : 
      10                 :            : typedef int __attribute__((nonnull(2,3))) (*cmp_func)(void *,
      11                 :            :                 struct list_head const *, struct list_head const *);
      12                 :            : 
      13                 :            : /*
      14                 :            :  * Returns a list organized in an intermediate format suited
      15                 :            :  * to chaining of merge() calls: null-terminated, no reserved or
      16                 :            :  * sentinel head node, "prev" links not maintained.
      17                 :            :  */
      18                 :            : __attribute__((nonnull(2,3,4)))
      19                 :          0 : static struct list_head *merge(void *priv, cmp_func cmp,
      20                 :            :                                 struct list_head *a, struct list_head *b)
      21                 :            : {
      22                 :          0 :         struct list_head *head, **tail = &head;
      23                 :            : 
      24                 :          0 :         for (;;) {
      25                 :            :                 /* if equal, take 'a' -- important for sort stability */
      26   [ #  #  #  # ]:          0 :                 if (cmp(priv, a, b) <= 0) {
      27                 :          0 :                         *tail = a;
      28                 :          0 :                         tail = &a->next;
      29                 :          0 :                         a = a->next;
      30   [ #  #  #  # ]:          0 :                         if (!a) {
      31                 :          0 :                                 *tail = b;
      32                 :          0 :                                 break;
      33                 :            :                         }
      34                 :            :                 } else {
      35                 :          0 :                         *tail = b;
      36                 :          0 :                         tail = &b->next;
      37                 :          0 :                         b = b->next;
      38   [ #  #  #  # ]:          0 :                         if (!b) {
      39                 :          0 :                                 *tail = a;
      40                 :          0 :                                 break;
      41                 :            :                         }
      42                 :            :                 }
      43                 :            :         }
      44                 :          0 :         return head;
      45                 :            : }
      46                 :            : 
      47                 :            : /*
      48                 :            :  * Combine final list merge with restoration of standard doubly-linked
      49                 :            :  * list structure.  This approach duplicates code from merge(), but
      50                 :            :  * runs faster than the tidier alternatives of either a separate final
      51                 :            :  * prev-link restoration pass, or maintaining the prev links
      52                 :            :  * throughout.
      53                 :            :  */
      54                 :            : __attribute__((nonnull(2,3,4,5)))
      55                 :          0 : static void merge_final(void *priv, cmp_func cmp, struct list_head *head,
      56                 :            :                         struct list_head *a, struct list_head *b)
      57                 :            : {
      58                 :          0 :         struct list_head *tail = head;
      59                 :          0 :         u8 count = 0;
      60                 :            : 
      61                 :          0 :         for (;;) {
      62                 :            :                 /* if equal, take 'a' -- important for sort stability */
      63         [ #  # ]:          0 :                 if (cmp(priv, a, b) <= 0) {
      64                 :          0 :                         tail->next = a;
      65                 :          0 :                         a->prev = tail;
      66                 :          0 :                         tail = a;
      67                 :          0 :                         a = a->next;
      68         [ #  # ]:          0 :                         if (!a)
      69                 :            :                                 break;
      70                 :            :                 } else {
      71                 :          0 :                         tail->next = b;
      72                 :          0 :                         b->prev = tail;
      73                 :          0 :                         tail = b;
      74                 :          0 :                         b = b->next;
      75         [ #  # ]:          0 :                         if (!b) {
      76                 :            :                                 b = a;
      77                 :            :                                 break;
      78                 :            :                         }
      79                 :            :                 }
      80                 :            :         }
      81                 :            : 
      82                 :            :         /* Finish linking remainder of list b on to tail */
      83                 :          0 :         tail->next = b;
      84                 :          0 :         do {
      85                 :            :                 /*
      86                 :            :                  * If the merge is highly unbalanced (e.g. the input is
      87                 :            :                  * already sorted), this loop may run many iterations.
      88                 :            :                  * Continue callbacks to the client even though no
      89                 :            :                  * element comparison is needed, so the client's cmp()
      90                 :            :                  * routine can invoke cond_resched() periodically.
      91                 :            :                  */
      92         [ #  # ]:          0 :                 if (unlikely(!++count))
      93                 :          0 :                         cmp(priv, b, b);
      94                 :          0 :                 b->prev = tail;
      95                 :          0 :                 tail = b;
      96                 :          0 :                 b = b->next;
      97         [ #  # ]:          0 :         } while (b);
      98                 :            : 
      99                 :            :         /* And the final links to make a circular doubly-linked list */
     100                 :          0 :         tail->next = head;
     101                 :          0 :         head->prev = tail;
     102                 :          0 : }
     103                 :            : 
     104                 :            : /**
     105                 :            :  * list_sort - sort a list
     106                 :            :  * @priv: private data, opaque to list_sort(), passed to @cmp
     107                 :            :  * @head: the list to sort
     108                 :            :  * @cmp: the elements comparison function
     109                 :            :  *
     110                 :            :  * The comparison funtion @cmp must return > 0 if @a should sort after
     111                 :            :  * @b ("@a > @b" if you want an ascending sort), and <= 0 if @a should
     112                 :            :  * sort before @b *or* their original order should be preserved.  It is
     113                 :            :  * always called with the element that came first in the input in @a,
     114                 :            :  * and list_sort is a stable sort, so it is not necessary to distinguish
     115                 :            :  * the @a < @b and @a == @b cases.
     116                 :            :  *
     117                 :            :  * This is compatible with two styles of @cmp function:
     118                 :            :  * - The traditional style which returns <0 / =0 / >0, or
     119                 :            :  * - Returning a boolean 0/1.
     120                 :            :  * The latter offers a chance to save a few cycles in the comparison
     121                 :            :  * (which is used by e.g. plug_ctx_cmp() in block/blk-mq.c).
     122                 :            :  *
     123                 :            :  * A good way to write a multi-word comparison is::
     124                 :            :  *
     125                 :            :  *      if (a->high != b->high)
     126                 :            :  *              return a->high > b->high;
     127                 :            :  *      if (a->middle != b->middle)
     128                 :            :  *              return a->middle > b->middle;
     129                 :            :  *      return a->low > b->low;
     130                 :            :  *
     131                 :            :  *
     132                 :            :  * This mergesort is as eager as possible while always performing at least
     133                 :            :  * 2:1 balanced merges.  Given two pending sublists of size 2^k, they are
     134                 :            :  * merged to a size-2^(k+1) list as soon as we have 2^k following elements.
     135                 :            :  *
     136                 :            :  * Thus, it will avoid cache thrashing as long as 3*2^k elements can
     137                 :            :  * fit into the cache.  Not quite as good as a fully-eager bottom-up
     138                 :            :  * mergesort, but it does use 0.2*n fewer comparisons, so is faster in
     139                 :            :  * the common case that everything fits into L1.
     140                 :            :  *
     141                 :            :  *
     142                 :            :  * The merging is controlled by "count", the number of elements in the
     143                 :            :  * pending lists.  This is beautiully simple code, but rather subtle.
     144                 :            :  *
     145                 :            :  * Each time we increment "count", we set one bit (bit k) and clear
     146                 :            :  * bits k-1 .. 0.  Each time this happens (except the very first time
     147                 :            :  * for each bit, when count increments to 2^k), we merge two lists of
     148                 :            :  * size 2^k into one list of size 2^(k+1).
     149                 :            :  *
     150                 :            :  * This merge happens exactly when the count reaches an odd multiple of
     151                 :            :  * 2^k, which is when we have 2^k elements pending in smaller lists,
     152                 :            :  * so it's safe to merge away two lists of size 2^k.
     153                 :            :  *
     154                 :            :  * After this happens twice, we have created two lists of size 2^(k+1),
     155                 :            :  * which will be merged into a list of size 2^(k+2) before we create
     156                 :            :  * a third list of size 2^(k+1), so there are never more than two pending.
     157                 :            :  *
     158                 :            :  * The number of pending lists of size 2^k is determined by the
     159                 :            :  * state of bit k of "count" plus two extra pieces of information:
     160                 :            :  *
     161                 :            :  * - The state of bit k-1 (when k == 0, consider bit -1 always set), and
     162                 :            :  * - Whether the higher-order bits are zero or non-zero (i.e.
     163                 :            :  *   is count >= 2^(k+1)).
     164                 :            :  *
     165                 :            :  * There are six states we distinguish.  "x" represents some arbitrary
     166                 :            :  * bits, and "y" represents some arbitrary non-zero bits:
     167                 :            :  * 0:  00x: 0 pending of size 2^k;           x pending of sizes < 2^k
     168                 :            :  * 1:  01x: 0 pending of size 2^k; 2^(k-1) + x pending of sizes < 2^k
     169                 :            :  * 2: x10x: 0 pending of size 2^k; 2^k     + x pending of sizes < 2^k
     170                 :            :  * 3: x11x: 1 pending of size 2^k; 2^(k-1) + x pending of sizes < 2^k
     171                 :            :  * 4: y00x: 1 pending of size 2^k; 2^k     + x pending of sizes < 2^k
     172                 :            :  * 5: y01x: 2 pending of size 2^k; 2^(k-1) + x pending of sizes < 2^k
     173                 :            :  * (merge and loop back to state 2)
     174                 :            :  *
     175                 :            :  * We gain lists of size 2^k in the 2->3 and 4->5 transitions (because
     176                 :            :  * bit k-1 is set while the more significant bits are non-zero) and
     177                 :            :  * merge them away in the 5->2 transition.  Note in particular that just
     178                 :            :  * before the 5->2 transition, all lower-order bits are 11 (state 3),
     179                 :            :  * so there is one list of each smaller size.
     180                 :            :  *
     181                 :            :  * When we reach the end of the input, we merge all the pending
     182                 :            :  * lists, from smallest to largest.  If you work through cases 2 to
     183                 :            :  * 5 above, you can see that the number of elements we merge with a list
     184                 :            :  * of size 2^k varies from 2^(k-1) (cases 3 and 5 when x == 0) to
     185                 :            :  * 2^(k+1) - 1 (second merge of case 5 when x == 2^(k-1) - 1).
     186                 :            :  */
     187                 :            : __attribute__((nonnull(2,3)))
     188                 :          0 : void list_sort(void *priv, struct list_head *head,
     189                 :            :                 int (*cmp)(void *priv, struct list_head *a,
     190                 :            :                         struct list_head *b))
     191                 :            : {
     192                 :          0 :         struct list_head *list = head->next, *pending = NULL;
     193                 :          0 :         size_t count = 0;       /* Count of pending */
     194                 :            : 
     195         [ #  # ]:          0 :         if (list == head->prev)      /* Zero or one elements */
     196                 :          0 :                 return;
     197                 :            : 
     198                 :            :         /* Convert to a null-terminated singly-linked list. */
     199                 :          0 :         head->prev->next = NULL;
     200                 :            : 
     201                 :            :         /*
     202                 :            :          * Data structure invariants:
     203                 :            :          * - All lists are singly linked and null-terminated; prev
     204                 :            :          *   pointers are not maintained.
     205                 :            :          * - pending is a prev-linked "list of lists" of sorted
     206                 :            :          *   sublists awaiting further merging.
     207                 :            :          * - Each of the sorted sublists is power-of-two in size.
     208                 :            :          * - Sublists are sorted by size and age, smallest & newest at front.
     209                 :            :          * - There are zero to two sublists of each size.
     210                 :            :          * - A pair of pending sublists are merged as soon as the number
     211                 :            :          *   of following pending elements equals their size (i.e.
     212                 :            :          *   each time count reaches an odd multiple of that size).
     213                 :            :          *   That ensures each later final merge will be at worst 2:1.
     214                 :            :          * - Each round consists of:
     215                 :            :          *   - Merging the two sublists selected by the highest bit
     216                 :            :          *     which flips when count is incremented, and
     217                 :            :          *   - Adding an element from the input as a size-1 sublist.
     218                 :            :          */
     219                 :          0 :         do {
     220                 :          0 :                 size_t bits;
     221                 :          0 :                 struct list_head **tail = &pending;
     222                 :            : 
     223                 :            :                 /* Find the least-significant clear bit in count */
     224         [ #  # ]:          0 :                 for (bits = count; bits & 1; bits >>= 1)
     225                 :          0 :                         tail = &(*tail)->prev;
     226                 :            :                 /* Do the indicated merge */
     227         [ #  # ]:          0 :                 if (likely(bits)) {
     228                 :          0 :                         struct list_head *a = *tail, *b = a->prev;
     229                 :            : 
     230                 :          0 :                         a = merge(priv, (cmp_func)cmp, b, a);
     231                 :            :                         /* Install the merged result in place of the inputs */
     232                 :          0 :                         a->prev = b->prev;
     233                 :          0 :                         *tail = a;
     234                 :            :                 }
     235                 :            : 
     236                 :            :                 /* Move one element from input list to pending */
     237                 :          0 :                 list->prev = pending;
     238                 :          0 :                 pending = list;
     239                 :          0 :                 list = list->next;
     240                 :          0 :                 pending->next = NULL;
     241                 :          0 :                 count++;
     242         [ #  # ]:          0 :         } while (list);
     243                 :            : 
     244                 :            :         /* End of input; merge together all the pending lists. */
     245                 :          0 :         list = pending;
     246                 :          0 :         pending = pending->prev;
     247                 :          0 :         for (;;) {
     248                 :          0 :                 struct list_head *next = pending->prev;
     249                 :            : 
     250         [ #  # ]:          0 :                 if (!next)
     251                 :            :                         break;
     252                 :            :                 list = merge(priv, (cmp_func)cmp, pending, list);
     253                 :          0 :                 pending = next;
     254                 :            :         }
     255                 :            :         /* The final merge, rebuilding prev links */
     256                 :          0 :         merge_final(priv, (cmp_func)cmp, head, pending, list);
     257                 :            : }
     258                 :            : EXPORT_SYMBOL(list_sort);

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