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stdlib: Implement introsort for qsort (BZ 19305)

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This patch makes the quicksort implementation to acts as introsort, to
avoid worse-case performance (and thus making it O(nlog n)).  It switch
to heapsort when the depth level reaches 2*log2(total elements).  The
heapsort is a textbook implementation.

Checked on x86_64-linux-gnu and aarch64-linux-gnu.
Reviewed-by: Noah Goldstein <goldstein.w.n@gmail.com>
This commit is contained in:
Adhemerval Zanella 2023-10-03 09:22:49 -03:00
parent d097f3c79b
commit 274a46c9b2
1 changed files with 82 additions and 7 deletions
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89
stdlib/qsort.c
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@ -98,6 +98,7 @@ typedef struct
{ {
char *lo; char *lo;
char *hi; char *hi;
size_t depth;
} stack_node; } stack_node;
/* The stack needs log (total_elements) entries (we could even subtract /* The stack needs log (total_elements) entries (we could even subtract
@ -107,22 +108,85 @@ typedef struct
enum { STACK_SIZE = CHAR_BIT * sizeof (size_t) }; enum { STACK_SIZE = CHAR_BIT * sizeof (size_t) };
static inline stack_node * static inline stack_node *
push (stack_node *top, char *lo, char *hi) push (stack_node *top, char *lo, char *hi, size_t depth)
{ {
top->lo = lo; top->lo = lo;
top->hi = hi; top->hi = hi;
top->depth = depth;
return ++top; return ++top;
} }
static inline stack_node * static inline stack_node *
pop (stack_node *top, char **lo, char **hi) pop (stack_node *top, char **lo, char **hi, size_t *depth)
{ {
--top; --top;
*lo = top->lo; *lo = top->lo;
*hi = top->hi; *hi = top->hi;
*depth = top->depth;
return top; return top;
} }
/* NB: N is inclusive bound for BASE. */
static inline void
siftdown (void *base, size_t size, size_t k, size_t n,
enum swap_type_t swap_type, __compar_d_fn_t cmp, void *arg)
{
while (k <= n / 2)
{
size_t j = 2 * k;
if (j < n && cmp (base + (j * size), base + ((j + 1) * size), arg) < 0)
j++;
if (cmp (base + (k * size), base + (j * size), arg) >= 0)
break;
do_swap (base + (size * j), base + (k * size), size, swap_type);
k = j;
}
}
static inline void
heapify (void *base, size_t size, size_t n, enum swap_type_t swap_type,
__compar_d_fn_t cmp, void *arg)
{
size_t k = n / 2;
while (1)
{
siftdown (base, size, k, n, swap_type, cmp, arg);
if (k-- == 0)
break;
}
}
/* A non-recursive heapsort, used on introsort implementation as a fallback
routine with worst-case performance of O(nlog n) and worst-case space
complexity of O(1). It sorts the array starting at BASE and ending at
END, with each element of SIZE bytes. The SWAP_TYPE is the callback
function used to swap elements, and CMP is the function used to compare
elements. */
static void
heapsort_r (void *base, void *end, size_t size, enum swap_type_t swap_type,
__compar_d_fn_t cmp, void *arg)
{
const size_t count = ((uintptr_t) end - (uintptr_t) base) / size;
if (count < 2)
return;
size_t n = count - 1;
/* Build the binary heap, largest value at the base[0]. */
heapify (base, size, n, swap_type, cmp, arg);
/* On each iteration base[0:n] is the binary heap, while base[n:count]
is sorted. */
while (n > 0)
{
do_swap (base, base + (n * size), size, swap_type);
n--;
siftdown (base, size, 0, n, swap_type, cmp, arg);
}
}
static inline void static inline void
insertion_sort_qsort_partitions (void *const pbase, size_t total_elems, insertion_sort_qsort_partitions (void *const pbase, size_t total_elems,
@ -208,7 +272,7 @@ _quicksort (void *const pbase, size_t total_elems, size_t size,
const size_t max_thresh = MAX_THRESH * size; const size_t max_thresh = MAX_THRESH * size;
if (total_elems == 0) if (total_elems <= 1)
/* Avoid lossage with unsigned arithmetic below. */ /* Avoid lossage with unsigned arithmetic below. */
return; return;
@ -220,15 +284,26 @@ _quicksort (void *const pbase, size_t total_elems, size_t size,
else else
swap_type = SWAP_BYTES; swap_type = SWAP_BYTES;
/* Maximum depth before quicksort switches to heapsort. */
size_t depth = 2 * (sizeof (size_t) * CHAR_BIT - 1
- __builtin_clzl (total_elems));
if (total_elems > MAX_THRESH) if (total_elems > MAX_THRESH)
{ {
char *lo = base_ptr; char *lo = base_ptr;
char *hi = &lo[size * (total_elems - 1)]; char *hi = &lo[size * (total_elems - 1)];
stack_node stack[STACK_SIZE]; stack_node stack[STACK_SIZE];
stack_node *top = stack + 1; stack_node *top = push (stack, NULL, NULL, depth);
while (stack < top) while (stack < top)
{ {
if (depth == 0)
{
heapsort_r (lo, hi, size, swap_type, cmp, arg);
top = pop (top, &lo, &hi, &depth);
continue;
}
char *left_ptr; char *left_ptr;
char *right_ptr; char *right_ptr;
@ -292,7 +367,7 @@ _quicksort (void *const pbase, size_t total_elems, size_t size,
{ {
if ((size_t) (hi - left_ptr) <= max_thresh) if ((size_t) (hi - left_ptr) <= max_thresh)
/* Ignore both small partitions. */ /* Ignore both small partitions. */
top = pop (top, &lo, &hi); top = pop (top, &lo, &hi, &depth);
else else
/* Ignore small left partition. */ /* Ignore small left partition. */
lo = left_ptr; lo = left_ptr;
@ -303,13 +378,13 @@ _quicksort (void *const pbase, size_t total_elems, size_t size,
else if ((right_ptr - lo) > (hi - left_ptr)) else if ((right_ptr - lo) > (hi - left_ptr))
{ {
/* Push larger left partition indices. */ /* Push larger left partition indices. */
top = push (top, lo, right_ptr); top = push (top, lo, right_ptr, depth - 1);
lo = left_ptr; lo = left_ptr;
} }
else else
{ {
/* Push larger right partition indices. */ /* Push larger right partition indices. */
top = push (top, left_ptr, hi); top = push (top, left_ptr, hi, depth - 1);
hi = right_ptr; hi = right_ptr;
} }
} }