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src
secp256k1
src
hsort_impl.h
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/***********************************************************************
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* Copyright (c) 2021 Russell O'Connor, Jonas Nick *
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* Distributed under the MIT software license, see the accompanying *
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* file COPYING or https://www.opensource.org/licenses/mit-license.php.*
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***********************************************************************/
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#ifndef SECP256K1_HSORT_IMPL_H
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#define SECP256K1_HSORT_IMPL_H
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#include "
hsort.h
"
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/* An array is a heap when, for all non-zero indexes i, the element at index i
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* compares as less than or equal to the element at index parent(i) = (i-1)/2.
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*/
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static
SECP256K1_INLINE
size_t
secp256k1_heap_child1
(
size_t
i) {
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VERIFY_CHECK
(i <= (SIZE_MAX - 1)/2);
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return
2*i + 1;
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}
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static
SECP256K1_INLINE
size_t
secp256k1_heap_child2
(
size_t
i) {
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VERIFY_CHECK
(i <= SIZE_MAX/2 - 1);
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return
secp256k1_heap_child1
(i)+1;
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}
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static
SECP256K1_INLINE
void
secp256k1_heap_swap64
(
unsigned
char
*a,
unsigned
char
*b,
size_t
len) {
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unsigned
char
tmp[64];
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VERIFY_CHECK
(len <= 64);
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memcpy(tmp, a, len);
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memmove(a, b, len);
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memcpy(b, tmp, len);
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}
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static
SECP256K1_INLINE
void
secp256k1_heap_swap
(
unsigned
char
*arr,
size_t
i,
size_t
j,
size_t
stride) {
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unsigned
char
*a = arr + i*stride;
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unsigned
char
*b = arr + j*stride;
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size_t
len = stride;
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while
(64 < len) {
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secp256k1_heap_swap64
(a + (len - 64), b + (len - 64), 64);
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len -= 64;
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}
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secp256k1_heap_swap64
(a, b, len);
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}
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/* This function accepts an array arr containing heap_size elements, each of
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* size stride. The elements in the array at indices >i satisfy the max-heap
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* property, i.e., for any element at index j (where j > i), all of its children
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* are smaller than the element itself. The purpose of the function is to update
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* the array so that all elements at indices >=i satisfy the max-heap
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* property. */
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static
SECP256K1_INLINE
void
secp256k1_heap_down
(
unsigned
char
*arr,
size_t
i,
size_t
heap_size,
size_t
stride,
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int
(*cmp)(
const
void
*,
const
void
*,
void
*),
void
*cmp_data) {
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while
(i < heap_size/2) {
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VERIFY_CHECK
(i <= SIZE_MAX/2 - 1);
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/* Proof:
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* i < heap_size/2
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* i + 1 <= heap_size/2
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* 2*i + 2 <= heap_size <= SIZE_MAX
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* 2*i <= SIZE_MAX - 2
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*/
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VERIFY_CHECK
(
secp256k1_heap_child1
(i) < heap_size);
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/* Proof:
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* i < heap_size/2
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* i + 1 <= heap_size/2
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* 2*i + 2 <= heap_size
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* 2*i + 1 < heap_size
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* child1(i) < heap_size
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*/
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/* Let [x] be notation for the contents at arr[x*stride].
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*
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* If [child1(i)] > [i] and [child2(i)] > [i],
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* swap [i] with the larger child to ensure the new parent is larger
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* than both children. When [child1(i)] == [child2(i)], swap [i] with
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* [child2(i)].
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* Else if [child1(i)] > [i], swap [i] with [child1(i)].
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* Else if [child2(i)] > [i], swap [i] with [child2(i)].
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*/
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if
(
secp256k1_heap_child2
(i) < heap_size
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&& 0 <= cmp(arr +
secp256k1_heap_child2
(i)*stride, arr +
secp256k1_heap_child1
(i)*stride, cmp_data)) {
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if
(0 < cmp(arr +
secp256k1_heap_child2
(i)*stride, arr + i*stride, cmp_data)) {
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secp256k1_heap_swap
(arr, i,
secp256k1_heap_child2
(i), stride);
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i =
secp256k1_heap_child2
(i);
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}
else
{
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/* At this point we have [child2(i)] >= [child1(i)] and we have
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* [child2(i)] <= [i], and thus [child1(i)] <= [i] which means
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* that the next comparison can be skipped. */
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return
;
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}
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}
else
if
(0 < cmp(arr +
secp256k1_heap_child1
(i)*stride, arr + i*stride, cmp_data)) {
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secp256k1_heap_swap
(arr, i,
secp256k1_heap_child1
(i), stride);
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i =
secp256k1_heap_child1
(i);
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}
else
{
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return
;
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}
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}
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/* heap_size/2 <= i
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* heap_size/2 < i + 1
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* heap_size < 2*i + 2
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* heap_size <= 2*i + 1
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* heap_size <= child1(i)
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* Thus child1(i) and child2(i) are now out of bounds and we are at a leaf.
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*/
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}
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/* In-place heap sort. */
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static
void
secp256k1_hsort
(
void
*ptr,
size_t
count
,
size_t
size,
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int
(*cmp)(
const
void
*,
const
void
*,
void
*),
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void
*cmp_data) {
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size_t
i;
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for
(i =
count
/2; 0 < i; --i) {
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secp256k1_heap_down
(ptr, i-1,
count
, size, cmp, cmp_data);
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}
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for
(i =
count
; 1 < i; --i) {
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/* Extract the largest value from the heap */
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secp256k1_heap_swap
(ptr, 0, i-1, size);
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/* Repair the heap condition */
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secp256k1_heap_down
(ptr, 0, i-1, size, cmp, cmp_data);
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}
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}
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#endif
hsort.h
secp256k1_heap_child2
static SECP256K1_INLINE size_t secp256k1_heap_child2(size_t i)
Definition
hsort_impl.h:21
secp256k1_hsort
static void secp256k1_hsort(void *ptr, size_t count, size_t size, int(*cmp)(const void *, const void *, void *), void *cmp_data)
Definition
hsort_impl.h:108
secp256k1_heap_swap
static SECP256K1_INLINE void secp256k1_heap_swap(unsigned char *arr, size_t i, size_t j, size_t stride)
Definition
hsort_impl.h:34
secp256k1_heap_child1
static SECP256K1_INLINE size_t secp256k1_heap_child1(size_t i)
Definition
hsort_impl.h:16
secp256k1_heap_down
static SECP256K1_INLINE void secp256k1_heap_down(unsigned char *arr, size_t i, size_t heap_size, size_t stride, int(*cmp)(const void *, const void *, void *), void *cmp_data)
Definition
hsort_impl.h:51
secp256k1_heap_swap64
static SECP256K1_INLINE void secp256k1_heap_swap64(unsigned char *a, unsigned char *b, size_t len)
Definition
hsort_impl.h:26
SECP256K1_INLINE
#define SECP256K1_INLINE
Definition
util.h:54
VERIFY_CHECK
#define VERIFY_CHECK(cond)
Definition
util.h:159
count
static int count
Definition
tests_exhaustive.c:34
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