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ref_array: keep track of whether references are sorted

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Keep track of how many entries at the beginning of a ref_array are already
sorted.  In sort_ref_array(), return early if the the array is already
sorted (i.e., if no new references has been appended to the end of the
list since the last call to sort_ref_array()).

Sort ref_arrays only when needed, namely in search_ref_array() and in
do_for_each_ref().  However, never call sort_ref_array() on the
extra_refs, because extra_refs can contain multiple entries with the same
name and because sort_ref_array() not only sorts, but de-dups its
contents.

This change is currently not useful, because entries are not added to
ref_arrays after they are created.  But in a moment they will be...

Implementation note: we could store a binary "sorted" value instead of
an integer, but storing the number of sorted entries leaves the way
open for a couple of possible future optimizations:

* In sort_ref_array(), sort *only* the unsorted entries, then merge
  them with the sorted entries.  This should be faster if most of the
  entries are already sorted.

* Teach search_ref_array() to do a binary search of any sorted
  entries, and if unsuccessful do a linear search of any unsorted
  entries.  This would avoid the need to sort the list every time that
  search_ref_array() is called, and (given some intelligence about how
  often to sort) could significantly improve the speed in certain
  hypothetical usage patterns.

Signed-off-by: Michael Haggerty <mhagger@alum.mit.edu>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
This commit is contained in:
Michael Haggerty 2012-01-17 06:50:32 +01:00 committed by Junio C Hamano
parent e45a59955e
commit e6ed3ca651
1 changed files with 26 additions and 7 deletions
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33
refs.c
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@ -17,6 +17,15 @@ struct ref_entry {
struct ref_array { struct ref_array {
int nr, alloc; int nr, alloc;
/*
* Entries with index 0 <= i < sorted are sorted by name. New
* entries are appended to the list unsorted, and are sorted
* only when required; thus we avoid the need to sort the list
* after the addition of every reference.
*/
int sorted;
struct ref_entry **refs; struct ref_entry **refs;
}; };
@ -105,12 +114,18 @@ static int is_dup_ref(const struct ref_entry *ref1, const struct ref_entry *ref2
} }
} }
/*
* Sort the entries in array (if they are not already sorted).
*/
static void sort_ref_array(struct ref_array *array) static void sort_ref_array(struct ref_array *array)
{ {
int i, j; int i, j;
/* Nothing to sort unless there are at least two entries */ /*
if (array->nr < 2) * This check also prevents passing a zero-length array to qsort(),
* which is a problem on some platforms.
*/
if (array->sorted == array->nr)
return; return;
qsort(array->refs, array->nr, sizeof(*array->refs), ref_entry_cmp); qsort(array->refs, array->nr, sizeof(*array->refs), ref_entry_cmp);
@ -124,7 +139,7 @@ static void sort_ref_array(struct ref_array *array)
} }
array->refs[++i] = array->refs[j]; array->refs[++i] = array->refs[j];
} }
array->nr = i + 1; array->sorted = array->nr = i + 1;
} }
static struct ref_entry *search_ref_array(struct ref_array *array, const char *refname) static struct ref_entry *search_ref_array(struct ref_array *array, const char *refname)
@ -137,7 +152,7 @@ static struct ref_entry *search_ref_array(struct ref_array *array, const char *r
if (!array->nr) if (!array->nr)
return NULL; return NULL;
sort_ref_array(array);
len = strlen(refname) + 1; len = strlen(refname) + 1;
e = xmalloc(sizeof(struct ref_entry) + len); e = xmalloc(sizeof(struct ref_entry) + len);
memcpy(e->name, refname, len); memcpy(e->name, refname, len);
@ -168,6 +183,10 @@ static struct ref_cache {
static struct ref_entry *current_ref; static struct ref_entry *current_ref;
/*
* Never call sort_ref_array() on the extra_refs, because it is
* allowed to contain entries with duplicate names.
*/
static struct ref_array extra_refs; static struct ref_array extra_refs;
static void clear_ref_array(struct ref_array *array) static void clear_ref_array(struct ref_array *array)
@ -176,7 +195,7 @@ static void clear_ref_array(struct ref_array *array)
for (i = 0; i < array->nr; i++) for (i = 0; i < array->nr; i++)
free(array->refs[i]); free(array->refs[i]);
free(array->refs); free(array->refs);
array->nr = array->alloc = 0; array->sorted = array->nr = array->alloc = 0;
array->refs = NULL; array->refs = NULL;
} }
@ -268,7 +287,6 @@ static void read_packed_refs(FILE *f, struct ref_array *array)
!get_sha1_hex(refline + 1, sha1)) !get_sha1_hex(refline + 1, sha1))
hashcpy(last->peeled, sha1); hashcpy(last->peeled, sha1);
} }
sort_ref_array(array);
} }
void add_extra_ref(const char *refname, const unsigned char *sha1, int flag) void add_extra_ref(const char *refname, const unsigned char *sha1, int flag)
@ -404,7 +422,6 @@ static struct ref_array *get_loose_refs(struct ref_cache *refs)
{ {
if (!refs->did_loose) { if (!refs->did_loose) {
get_ref_dir(refs, "refs", &refs->loose); get_ref_dir(refs, "refs", &refs->loose);
sort_ref_array(&refs->loose);
refs->did_loose = 1; refs->did_loose = 1;
} }
return &refs->loose; return &refs->loose;
@ -720,6 +737,8 @@ static int do_for_each_ref(const char *submodule, const char *base, each_ref_fn
for (i = 0; i < extra->nr; i++) for (i = 0; i < extra->nr; i++)
retval = do_one_ref(base, fn, trim, flags, cb_data, extra->refs[i]); retval = do_one_ref(base, fn, trim, flags, cb_data, extra->refs[i]);
sort_ref_array(packed);
sort_ref_array(loose);
while (p < packed->nr && l < loose->nr) { while (p < packed->nr && l < loose->nr) {
struct ref_entry *entry; struct ref_entry *entry;
int cmp = strcmp(packed->refs[p]->name, loose->refs[l]->name); int cmp = strcmp(packed->refs[p]->name, loose->refs[l]->name);