/* * Copyright 2010 INRIA Saclay * Copyright 2013 Ecole Normale Superieure * Copyright 2015 INRIA Paris-Rocquencourt * * Use of this software is governed by the MIT license * * Written by Sven Verdoolaege, INRIA Saclay - Ile-de-France, * Parc Club Orsay Universite, ZAC des vignes, 4 rue Jacques Monod, * 91893 Orsay, France * and Ecole Normale Superieure, 45 rue d'Ulm, 75230 Paris, France * and INRIA Paris-Rocquencourt, Domaine de Voluceau, Rocquenqourt, B.P. 105, * 78153 Le Chesnay Cedex France */ #include #include /* A group of expressions defined over the same domain space "domain_space". * The entries of "part_table" are the individual expressions, * keyed on the entire space of the expression. * * Each UNION has its own groups, so there can only ever be a single * reference to each group. */ S(UNION,group) { isl_space *domain_space; struct isl_hash_table part_table; }; /* A union of expressions defined over different disjoint domains. * "space" describes the parameters. * The entries of "table" are keyed on the domain space of the entry and * contain groups of expressions that are defined over the same domain space. */ struct UNION { int ref; isl_space *space; struct isl_hash_table table; }; /* Internal data structure for isl_union_*_foreach_group. * "fn" is the function that needs to be called on each group. */ S(UNION,foreach_group_data) { isl_stat (*fn)(__isl_keep S(UNION,group) *group, void *user); void *user; }; /* Call data->fn on the group stored at *entry. */ static isl_stat FN(UNION,call_on_group)(void **entry, void *user) { S(UNION,group) *group = *entry; S(UNION,foreach_group_data) *data; data = (S(UNION,foreach_group_data) *) user; return data->fn(group, data->user); } /* Call "fn" on each group of expressions in "u". */ static isl_stat FN(UNION,foreach_group)(__isl_keep UNION *u, isl_stat (*fn)(__isl_keep S(UNION,group) *group, void *user), void *user) { S(UNION,foreach_group_data) data = { fn, user }; if (!u) return isl_stat_error; return isl_hash_table_foreach(u->space->ctx, &u->table, &FN(UNION,call_on_group), &data); } /* A isl_union_*_foreach_group callback for counting the total number * of expressions in a UNION. Add the number of expressions in "group" * to *n. */ static isl_stat FN(UNION,count_part)(__isl_keep S(UNION,group) *group, void *user) { int *n = user; if (!group) return isl_stat_error; *n += group->part_table.n; return isl_stat_ok; } /* Return the number of base expressions in "u". */ int FN(FN(UNION,n),PARTS)(__isl_keep UNION *u) { int n; n = 0; if (FN(UNION,foreach_group)(u, &FN(UNION,count_part), &n) < 0) n = -1; return n; } /* Free an entry in a group of expressions. * Each entry in such a group is a single expression. */ static isl_stat FN(UNION,free_group_entry)(void **entry, void *user) { PART *part = *entry; FN(PART,free)(part); return isl_stat_ok; } /* Free all memory allocated for "group" and return NULL. */ static __isl_null S(UNION,group) *FN(UNION,group_free)( __isl_take S(UNION,group) *group) { isl_ctx *ctx; if (!group) return NULL; ctx = isl_space_get_ctx(group->domain_space); isl_hash_table_foreach(ctx, &group->part_table, &FN(UNION,free_group_entry), NULL); isl_hash_table_clear(&group->part_table); isl_space_free(group->domain_space); free(group); return NULL; } /* Allocate a group of expressions defined over the same domain space * with domain space "domain_space" and initial size "size". */ static __isl_give S(UNION,group) *FN(UNION,group_alloc)( __isl_take isl_space *domain_space, int size) { isl_ctx *ctx; S(UNION,group) *group; if (!domain_space) return NULL; ctx = isl_space_get_ctx(domain_space); group = isl_calloc_type(ctx, S(UNION,group)); if (!group) goto error; group->domain_space = domain_space; if (isl_hash_table_init(ctx, &group->part_table, size) < 0) return FN(UNION,group_free)(group); return group; error: isl_space_free(domain_space); return NULL; } /* Is the space of "entry" equal to "space"? */ static int FN(UNION,has_space)(const void *entry, const void *val) { PART *part = (PART *) entry; isl_space *space = (isl_space *) val; return isl_space_is_equal(part->dim, space); } /* Return a group equal to "group", but with a single reference. * Since all groups have only a single reference, simply return "group". */ static __isl_give S(UNION,group) *FN(UNION,group_cow)( __isl_take S(UNION,group) *group) { return group; } S(UNION,foreach_data) { isl_stat (*fn)(__isl_take PART *part, void *user); void *user; }; static isl_stat FN(UNION,call_on_copy)(void **entry, void *user) { PART *part = *entry; S(UNION,foreach_data) *data = (S(UNION,foreach_data) *) user; part = FN(PART,copy)(part); if (!part) return isl_stat_error; return data->fn(part, data->user); } /* Call data->fn on a copy of each expression in "group". */ static isl_stat FN(UNION,group_call_on_copy)(__isl_keep S(UNION,group) *group, void *user) { isl_ctx *ctx; if (!group) return isl_stat_error; ctx = isl_space_get_ctx(group->domain_space); return isl_hash_table_foreach(ctx, &group->part_table, &FN(UNION,call_on_copy), user); } isl_stat FN(FN(UNION,foreach),PARTS)(__isl_keep UNION *u, isl_stat (*fn)(__isl_take PART *part, void *user), void *user) { S(UNION,foreach_data) data = { fn, user }; if (!u) return isl_stat_error; return FN(UNION,foreach_group)(u, &FN(UNION,group_call_on_copy), &data); } /* Is the domain space of the group of expressions at "entry" * equal to "space"? */ static int FN(UNION,group_has_domain_space)(const void *entry, const void *val) { S(UNION,group) *group = (S(UNION,group) *) entry; isl_space *space = (isl_space *) val; return isl_space_is_domain_internal(group->domain_space, space); } /* Return the entry, if any, in "u" that lives in "space". * If "reserve" is set, then an entry is created if it does not exist yet. * Return NULL on error and isl_hash_table_entry_none if no entry was found. * Note that when "reserve" is set, the function will never return * isl_hash_table_entry_none. * * First look for the group of expressions with the same domain space, * creating one if needed. * Then look for the expression living in the specified space in that group. */ static struct isl_hash_table_entry *FN(UNION,find_part_entry)( __isl_keep UNION *u, __isl_keep isl_space *space, int reserve) { isl_ctx *ctx; uint32_t hash; struct isl_hash_table_entry *group_entry, *part_entry; S(UNION,group) *group; if (!u || !space) return NULL; ctx = FN(UNION,get_ctx)(u); hash = isl_space_get_domain_hash(space); group_entry = isl_hash_table_find(ctx, &u->table, hash, &FN(UNION,group_has_domain_space), space, reserve); if (!group_entry) return reserve ? NULL : isl_hash_table_entry_none; if (reserve && !group_entry->data) { isl_space *domain = isl_space_domain(isl_space_copy(space)); group = FN(UNION,group_alloc)(domain, 1); group_entry->data = group; } else { group = group_entry->data; if (reserve) group = FN(UNION,group_cow)(group); } if (!group) return NULL; hash = isl_space_get_hash(space); part_entry = isl_hash_table_find(ctx, &group->part_table, hash, &FN(UNION,has_space), space, reserve); if (!reserve && !part_entry) return isl_hash_table_entry_none; return part_entry; } /* Remove "part_entry" from the hash table of "u". * * First look the group_entry in "u" holding the group that * contains "part_entry". Remove "part_entry" from that group. * If the group becomes empty, then also remove the group_entry from "u". */ static __isl_give UNION *FN(UNION,remove_part_entry)(__isl_take UNION *u, struct isl_hash_table_entry *part_entry) { isl_ctx *ctx; uint32_t hash; PART *part; struct isl_hash_table_entry *group_entry; S(UNION,group) *group; if (!u || !part_entry) return FN(UNION,free)(u); part = part_entry->data; ctx = FN(UNION,get_ctx)(u); hash = isl_space_get_domain_hash(part->dim); group_entry = isl_hash_table_find(ctx, &u->table, hash, &FN(UNION,group_has_domain_space), part->dim, 0); if (!group_entry) isl_die(ctx, isl_error_internal, "missing group", return FN(UNION,free)(u)); group = group_entry->data; isl_hash_table_remove(ctx, &group->part_table, part_entry); FN(PART,free)(part); if (group->part_table.n != 0) return u; isl_hash_table_remove(ctx, &u->table, group_entry); FN(UNION,group_free)(group); return u; } /* Are the domains of "part1" and "part2" disjoint? */ static isl_bool FN(UNION,disjoint_domain)(__isl_keep PART *part1, __isl_keep PART *part2) { isl_set *dom1, *dom2; isl_bool disjoint; if (!part1 || !part2) return isl_bool_error; dom1 = FN(PART,domain)(FN(PART,copy)(part1)); dom2 = FN(PART,domain)(FN(PART,copy)(part2)); disjoint = isl_set_is_disjoint(dom1, dom2); isl_set_free(dom1); isl_set_free(dom2); return disjoint; } /* Check that the expression at *entry has a domain that is disjoint * from that of "part", unless they also have the same target space. */ static isl_stat FN(UNION,check_disjoint_domain_entry)(void **entry, void *user) { PART *part = user; PART *other = *entry; isl_bool equal; isl_bool disjoint; equal = isl_space_is_equal(part->dim, other->dim); if (equal < 0) return isl_stat_error; if (equal) return isl_stat_ok; disjoint = FN(UNION,disjoint_domain)(part, other); if (disjoint < 0) return isl_stat_error; if (!disjoint) isl_die(FN(PART,get_ctx)(part), isl_error_invalid, "overlapping domain with other part", return isl_stat_error); return isl_stat_ok; } /* Check that the domain of "part" is disjoint from the domain of the entries * in "u" that are defined on the same domain space, but have a different * target space. * If there is no group of expressions in "u" with the same domain space, * then everything is fine. Otherwise, check the individual expressions * in that group. */ static isl_stat FN(UNION,check_disjoint_domain_other)(__isl_keep UNION *u, __isl_keep PART *part) { isl_ctx *ctx; uint32_t hash; struct isl_hash_table_entry *group_entry; S(UNION,group) *group; if (!u || !part) return isl_stat_error; ctx = FN(UNION,get_ctx)(u); hash = isl_space_get_domain_hash(part->dim); group_entry = isl_hash_table_find(ctx, &u->table, hash, &FN(UNION,group_has_domain_space), part->dim, 0); if (!group_entry) return isl_stat_ok; group = group_entry->data; return isl_hash_table_foreach(ctx, &group->part_table, &FN(UNION,check_disjoint_domain_entry), part); } /* Check that the domain of "part1" is disjoint from the domain of "part2". * This check is performed before "part2" is added to a UNION to ensure * that the UNION expression remains a function. */ static isl_stat FN(UNION,check_disjoint_domain)(__isl_keep PART *part1, __isl_keep PART *part2) { isl_bool disjoint; disjoint = FN(UNION,disjoint_domain)(part1, part2); if (disjoint < 0) return isl_stat_error; if (!disjoint) isl_die(FN(PART,get_ctx)(part1), isl_error_invalid, "domain of additional part should be disjoint", return isl_stat_error); return isl_stat_ok; } /* Internal data structure for isl_union_*_foreach_inplace. * "fn" is the function that needs to be called on each entry. */ S(UNION,foreach_inplace_data) { isl_stat (*fn)(void **entry, void *user); void *user; }; /* isl_union_*_foreach_group callback for calling data->fn on * each part entry in the group. */ static isl_stat FN(UNION,group_call_inplace)(__isl_keep S(UNION,group) *group, void *user) { isl_ctx *ctx; S(UNION,foreach_inplace_data) *data; if (!group) return isl_stat_error; data = (S(UNION,foreach_inplace_data) *) user; ctx = isl_space_get_ctx(group->domain_space); return isl_hash_table_foreach(ctx, &group->part_table, data->fn, data->user); } /* Call "fn" on each part entry of "u". */ static isl_stat FN(UNION,foreach_inplace)(__isl_keep UNION *u, isl_stat (*fn)(void **part, void *user), void *user) { S(UNION,foreach_inplace_data) data = { fn, user }; return FN(UNION,foreach_group)(u, &FN(UNION,group_call_inplace), &data); } /* Does "u" have a single reference? * That is, can we change "u" inplace? */ static isl_bool FN(UNION,has_single_reference)(__isl_keep UNION *u) { if (!u) return isl_bool_error; return u->ref == 1; } static isl_stat FN(UNION,free_u_entry)(void **entry, void *user) { S(UNION,group) *group = *entry; FN(UNION,group_free)(group); return isl_stat_ok; } #include