Change tree-ssa-coalesce.c'coalesce_list_d.list from htab_t to hash_table. Fold coalesce_pair_map_hash and coalesce_pair_map_eq into new struct coalesce_pair_hasher.
Removed struct coalesce_pair_iterator, as did not meet the hash_table iterator interface and it provided no significant code reduction. Tested on x86-64. Okay for branch? Index: gcc/tree-ssa-coalesce.c =================================================================== --- gcc/tree-ssa-coalesce.c (revision 194549) +++ gcc/tree-ssa-coalesce.c (working copy) @@ -50,6 +50,41 @@ typedef struct coalesce_pair } * coalesce_pair_p; typedef const struct coalesce_pair *const_coalesce_pair_p; +/* Coalesce pair hashtable helpers. */ + +struct coalesce_pair_hasher : typed_noop_remove <coalesce_pair> +{ + typedef coalesce_pair value_type; + typedef coalesce_pair compare_type; + static inline hashval_t hash (const value_type *); + static inline bool equal (const value_type *, const compare_type *); +}; + +/* Hash function for coalesce list. Calculate hash for PAIR. */ + +inline hashval_t +coalesce_pair_hasher::hash (const value_type *pair) +{ + hashval_t a = (hashval_t)(pair->first_element); + hashval_t b = (hashval_t)(pair->second_element); + + return b * (b - 1) / 2 + a; +} + +/* Equality function for coalesce list hash table. Compare PAIR1 and PAIR2, + returning TRUE if the two pairs are equivalent. */ + +inline bool +coalesce_pair_hasher::equal (const value_type *p1, const compare_type *p2) +{ + return (p1->first_element == p2->first_element + && p1->second_element == p2->second_element); +} + +typedef hash_table <coalesce_pair_hasher> coalesce_table_type; +typedef coalesce_table_type::iterator coalesce_iterator_type; + + typedef struct cost_one_pair_d { int first_element; @@ -61,7 +96,7 @@ typedef struct cost_one_pair_d typedef struct coalesce_list_d { - htab_t list; /* Hash table. */ + coalesce_table_type list; /* Hash table. */ coalesce_pair_p *sorted; /* List when sorted. */ int num_sorted; /* Number in the sorted list. */ cost_one_pair_p cost_one_list;/* Single use coalesces with cost 1. */ @@ -186,34 +221,6 @@ pop_best_coalesce (coalesce_list_p cl, i } -#define COALESCE_HASH_FN(R1, R2) ((R2) * ((R2) - 1) / 2 + (R1)) - -/* Hash function for coalesce list. Calculate hash for PAIR. */ - -static unsigned int -coalesce_pair_map_hash (const void *pair) -{ - hashval_t a = (hashval_t)(((const_coalesce_pair_p)pair)->first_element); - hashval_t b = (hashval_t)(((const_coalesce_pair_p)pair)->second_element); - - return COALESCE_HASH_FN (a,b); -} - - -/* Equality function for coalesce list hash table. Compare PAIR1 and PAIR2, - returning TRUE if the two pairs are equivalent. */ - -static int -coalesce_pair_map_eq (const void *pair1, const void *pair2) -{ - const_coalesce_pair_p const p1 = (const_coalesce_pair_p) pair1; - const_coalesce_pair_p const p2 = (const_coalesce_pair_p) pair2; - - return (p1->first_element == p2->first_element - && p1->second_element == p2->second_element); -} - - /* Create a new empty coalesce list object and return it. */ static inline coalesce_list_p @@ -226,8 +233,7 @@ create_coalesce_list (void) size = 40; list = (coalesce_list_p) xmalloc (sizeof (struct coalesce_list_d)); - list->list = htab_create (size, coalesce_pair_map_hash, - coalesce_pair_map_eq, NULL); + list->list.create (size); list->sorted = NULL; list->num_sorted = 0; list->cost_one_list = NULL; @@ -241,7 +247,7 @@ static inline void delete_coalesce_list (coalesce_list_p cl) { gcc_assert (cl->cost_one_list == NULL); - htab_delete (cl->list); + cl->list.dispose (); free (cl->sorted); gcc_assert (cl->num_sorted == 0); free (cl); @@ -256,7 +262,7 @@ static coalesce_pair_p find_coalesce_pair (coalesce_list_p cl, int p1, int p2, bool create) { struct coalesce_pair p; - void **slot; + coalesce_pair **slot; unsigned int hash; /* Normalize so that p1 is the smaller value. */ @@ -271,9 +277,8 @@ find_coalesce_pair (coalesce_list_p cl, p.second_element = p2; } - hash = coalesce_pair_map_hash (&p); - slot = htab_find_slot_with_hash (cl->list, &p, hash, - create ? INSERT : NO_INSERT); + hash = coalesce_pair_hasher::hash (&p); + slot = cl->list.find_slot_with_hash (&p, hash, create ? INSERT : NO_INSERT); if (!slot) return NULL; @@ -284,7 +289,7 @@ find_coalesce_pair (coalesce_list_p cl, pair->first_element = p.first_element; pair->second_element = p.second_element; pair->cost = 0; - *slot = (void *)pair; + *slot = pair; } return (struct coalesce_pair *) *slot; @@ -356,58 +361,10 @@ compare_pairs (const void *p1, const voi static inline int num_coalesce_pairs (coalesce_list_p cl) { - return htab_elements (cl->list); -} - - -/* Iterator over hash table pairs. */ -typedef struct -{ - htab_iterator hti; -} coalesce_pair_iterator; - - -/* Return first partition pair from list CL, initializing iterator ITER. */ - -static inline coalesce_pair_p -first_coalesce_pair (coalesce_list_p cl, coalesce_pair_iterator *iter) -{ - coalesce_pair_p pair; - - pair = (coalesce_pair_p) first_htab_element (&(iter->hti), cl->list); - return pair; -} - - -/* Return TRUE if there are no more partitions in for ITER to process. */ - -static inline bool -end_coalesce_pair_p (coalesce_pair_iterator *iter) -{ - return end_htab_p (&(iter->hti)); -} - - -/* Return the next partition pair to be visited by ITER. */ - -static inline coalesce_pair_p -next_coalesce_pair (coalesce_pair_iterator *iter) -{ - coalesce_pair_p pair; - - pair = (coalesce_pair_p) next_htab_element (&(iter->hti)); - return pair; + return cl->list.elements (); } -/* Iterate over CL using ITER, returning values in PAIR. */ - -#define FOR_EACH_PARTITION_PAIR(PAIR, ITER, CL) \ - for ((PAIR) = first_coalesce_pair ((CL), &(ITER)); \ - !end_coalesce_pair_p (&(ITER)); \ - (PAIR) = next_coalesce_pair (&(ITER))) - - /* Prepare CL for removal of preferred pairs. When finished they are sorted in order from most important coalesce to least important. */ @@ -416,7 +373,7 @@ sort_coalesce_list (coalesce_list_p cl) { unsigned x, num; coalesce_pair_p p; - coalesce_pair_iterator ppi; + coalesce_iterator_type ppi; gcc_assert (cl->sorted == NULL); @@ -430,7 +387,7 @@ sort_coalesce_list (coalesce_list_p cl) /* Populate the vector with pointers to the pairs. */ x = 0; - FOR_EACH_PARTITION_PAIR (p, ppi, cl) + FOR_EACH_HASH_TABLE_ELEMENT (cl->list, p, coalesce_pair_p, ppi) cl->sorted[x++] = p; gcc_assert (x == num); @@ -462,14 +419,15 @@ static void dump_coalesce_list (FILE *f, coalesce_list_p cl) { coalesce_pair_p node; - coalesce_pair_iterator ppi; + coalesce_iterator_type ppi; + int x; tree var; if (cl->sorted == NULL) { fprintf (f, "Coalesce List:\n"); - FOR_EACH_PARTITION_PAIR (node, ppi, cl) + FOR_EACH_HASH_TABLE_ELEMENT (cl->list, node, coalesce_pair_p, ppi) { tree var1 = ssa_name (node->first_element); tree var2 = ssa_name (node->second_element); -- Lawrence Crowl