/* * Copyright 2011 INRIA Saclay * Copyright 2012-2014 Ecole Normale Superieure * * 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 */ #include #include #include #include #include #include #include #include #include #include #include /* Return a schedule encapsulating the given schedule tree. * * We currently only allow schedule trees with a domain or extension as root. * * The leaf field is initialized as a leaf node so that it can be * used to represent leaves in the constructed schedule. * The reference count is set to -1 since the isl_schedule_tree * should never be freed. It is up to the (internal) users of * these leaves to ensure that they are only used while the schedule * is still alive. */ __isl_give isl_schedule *isl_schedule_from_schedule_tree(isl_ctx *ctx, __isl_take isl_schedule_tree *tree) { enum isl_schedule_node_type type; isl_schedule *schedule; if (!tree) return NULL; type = isl_schedule_tree_get_type(tree); if (type != isl_schedule_node_domain && type != isl_schedule_node_extension) isl_die(isl_schedule_tree_get_ctx(tree), isl_error_unsupported, "root of schedule tree should be a domain or extension", goto error); schedule = isl_calloc_type(ctx, isl_schedule); if (!schedule) goto error; schedule->leaf.ctx = ctx; isl_ctx_ref(ctx); schedule->ref = 1; schedule->root = tree; schedule->leaf.ref = -1; schedule->leaf.type = isl_schedule_node_leaf; return schedule; error: isl_schedule_tree_free(tree); return NULL; } /* Return a pointer to a schedule with as single node * a domain node with the given domain. */ __isl_give isl_schedule *isl_schedule_from_domain( __isl_take isl_union_set *domain) { isl_ctx *ctx; isl_schedule_tree *tree; ctx = isl_union_set_get_ctx(domain); tree = isl_schedule_tree_from_domain(domain); return isl_schedule_from_schedule_tree(ctx, tree); } /* Return a pointer to a schedule with as single node * a domain node with an empty domain. */ __isl_give isl_schedule *isl_schedule_empty(__isl_take isl_space *space) { return isl_schedule_from_domain(isl_union_set_empty(space)); } /* Return a new reference to "sched". */ __isl_give isl_schedule *isl_schedule_copy(__isl_keep isl_schedule *sched) { if (!sched) return NULL; sched->ref++; return sched; } /* Return an isl_schedule that is equal to "schedule" and that has only * a single reference. * * We only need and support this function when the schedule is represented * as a schedule tree. */ __isl_give isl_schedule *isl_schedule_cow(__isl_take isl_schedule *schedule) { isl_ctx *ctx; isl_schedule_tree *tree; if (!schedule) return NULL; if (schedule->ref == 1) return schedule; ctx = isl_schedule_get_ctx(schedule); if (!schedule->root) isl_die(ctx, isl_error_internal, "only for schedule tree based schedules", return isl_schedule_free(schedule)); schedule->ref--; tree = isl_schedule_tree_copy(schedule->root); return isl_schedule_from_schedule_tree(ctx, tree); } __isl_null isl_schedule *isl_schedule_free(__isl_take isl_schedule *sched) { if (!sched) return NULL; if (--sched->ref > 0) return NULL; isl_band_list_free(sched->band_forest); isl_schedule_tree_free(sched->root); isl_ctx_deref(sched->leaf.ctx); free(sched); return NULL; } /* Replace the root of "schedule" by "tree". */ __isl_give isl_schedule *isl_schedule_set_root( __isl_take isl_schedule *schedule, __isl_take isl_schedule_tree *tree) { if (!schedule || !tree) goto error; if (schedule->root == tree) { isl_schedule_tree_free(tree); return schedule; } schedule = isl_schedule_cow(schedule); if (!schedule) goto error; isl_schedule_tree_free(schedule->root); schedule->root = tree; return schedule; error: isl_schedule_free(schedule); isl_schedule_tree_free(tree); return NULL; } isl_ctx *isl_schedule_get_ctx(__isl_keep isl_schedule *schedule) { return schedule ? schedule->leaf.ctx : NULL; } /* Return a pointer to the leaf of "schedule". * * Even though these leaves are not reference counted, we still * indicate that this function does not return a copy. */ __isl_keep isl_schedule_tree *isl_schedule_peek_leaf( __isl_keep isl_schedule *schedule) { return schedule ? &schedule->leaf : NULL; } /* Are "schedule1" and "schedule2" obviously equal to each other? */ isl_bool isl_schedule_plain_is_equal(__isl_keep isl_schedule *schedule1, __isl_keep isl_schedule *schedule2) { if (!schedule1 || !schedule2) return isl_bool_error; if (schedule1 == schedule2) return isl_bool_true; return isl_schedule_tree_plain_is_equal(schedule1->root, schedule2->root); } /* Return the (parameter) space of the schedule, i.e., the space * of the root domain. */ __isl_give isl_space *isl_schedule_get_space( __isl_keep isl_schedule *schedule) { enum isl_schedule_node_type type; isl_space *space; isl_union_set *domain; if (!schedule) return NULL; if (!schedule->root) isl_die(isl_schedule_get_ctx(schedule), isl_error_invalid, "schedule tree representation not available", return NULL); type = isl_schedule_tree_get_type(schedule->root); if (type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(schedule), isl_error_internal, "root node not a domain node", return NULL); domain = isl_schedule_tree_domain_get_domain(schedule->root); space = isl_union_set_get_space(domain); isl_union_set_free(domain); return space; } /* Return a pointer to the root of "schedule". */ __isl_give isl_schedule_node *isl_schedule_get_root( __isl_keep isl_schedule *schedule) { isl_ctx *ctx; isl_schedule_tree *tree; isl_schedule_tree_list *ancestors; if (!schedule) return NULL; if (!schedule->root) isl_die(isl_schedule_get_ctx(schedule), isl_error_invalid, "schedule tree representation not available", return NULL); ctx = isl_schedule_get_ctx(schedule); tree = isl_schedule_tree_copy(schedule->root); schedule = isl_schedule_copy(schedule); ancestors = isl_schedule_tree_list_alloc(ctx, 0); return isl_schedule_node_alloc(schedule, tree, ancestors, NULL); } /* Set max_out to the maximal number of output dimensions over * all maps. */ static isl_stat update_max_out(__isl_take isl_map *map, void *user) { int *max_out = user; int n_out = isl_map_dim(map, isl_dim_out); if (n_out > *max_out) *max_out = n_out; isl_map_free(map); return isl_stat_ok; } /* Internal data structure for map_pad_range. * * "max_out" is the maximal schedule dimension. * "res" collects the results. */ struct isl_pad_schedule_map_data { int max_out; isl_union_map *res; }; /* Pad the range of the given map with zeros to data->max_out and * then add the result to data->res. */ static isl_stat map_pad_range(__isl_take isl_map *map, void *user) { struct isl_pad_schedule_map_data *data = user; int i; int n_out = isl_map_dim(map, isl_dim_out); map = isl_map_add_dims(map, isl_dim_out, data->max_out - n_out); for (i = n_out; i < data->max_out; ++i) map = isl_map_fix_si(map, isl_dim_out, i, 0); data->res = isl_union_map_add_map(data->res, map); if (!data->res) return isl_stat_error; return isl_stat_ok; } /* Pad the ranges of the maps in the union map with zeros such they all have * the same dimension. */ static __isl_give isl_union_map *pad_schedule_map( __isl_take isl_union_map *umap) { struct isl_pad_schedule_map_data data; if (!umap) return NULL; if (isl_union_map_n_map(umap) <= 1) return umap; data.max_out = 0; if (isl_union_map_foreach_map(umap, &update_max_out, &data.max_out) < 0) return isl_union_map_free(umap); data.res = isl_union_map_empty(isl_union_map_get_space(umap)); if (isl_union_map_foreach_map(umap, &map_pad_range, &data) < 0) data.res = isl_union_map_free(data.res); isl_union_map_free(umap); return data.res; } /* Return the domain of the root domain node of "schedule". */ __isl_give isl_union_set *isl_schedule_get_domain( __isl_keep isl_schedule *schedule) { if (!schedule) return NULL; if (!schedule->root) isl_die(isl_schedule_get_ctx(schedule), isl_error_invalid, "schedule tree representation not available", return NULL); return isl_schedule_tree_domain_get_domain(schedule->root); } /* Traverse all nodes of "sched" in depth first preorder. * * If "fn" returns -1 on any of the nodes, then the traversal is aborted. * If "fn" returns 0 on any of the nodes, then the subtree rooted * at that node is skipped. * * Return 0 on success and -1 on failure. */ isl_stat isl_schedule_foreach_schedule_node_top_down( __isl_keep isl_schedule *sched, isl_bool (*fn)(__isl_keep isl_schedule_node *node, void *user), void *user) { isl_schedule_node *node; isl_stat r; if (!sched) return isl_stat_error; node = isl_schedule_get_root(sched); r = isl_schedule_node_foreach_descendant_top_down(node, fn, user); isl_schedule_node_free(node); return r; } /* Traverse the node of "sched" in depth first postorder, * allowing the user to modify the visited node. * The traversal continues from the node returned by the callback function. * It is the responsibility of the user to ensure that this does not * lead to an infinite loop. It is safest to always return a pointer * to the same position (same ancestors and child positions) as the input node. */ __isl_give isl_schedule *isl_schedule_map_schedule_node_bottom_up( __isl_take isl_schedule *schedule, __isl_give isl_schedule_node *(*fn)( __isl_take isl_schedule_node *node, void *user), void *user) { isl_schedule_node *node; node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); node = isl_schedule_node_map_descendant_bottom_up(node, fn, user); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; } /* Wrapper around isl_schedule_node_reset_user for use as * an isl_schedule_map_schedule_node_bottom_up callback. */ static __isl_give isl_schedule_node *reset_user( __isl_take isl_schedule_node *node, void *user) { return isl_schedule_node_reset_user(node); } /* Reset the user pointer on all identifiers of parameters and tuples * in the schedule "schedule". */ __isl_give isl_schedule *isl_schedule_reset_user( __isl_take isl_schedule *schedule) { return isl_schedule_map_schedule_node_bottom_up(schedule, &reset_user, NULL); } /* Wrapper around isl_schedule_node_align_params for use as * an isl_schedule_map_schedule_node_bottom_up callback. */ static __isl_give isl_schedule_node *align_params( __isl_take isl_schedule_node *node, void *user) { isl_space *space = user; return isl_schedule_node_align_params(node, isl_space_copy(space)); } /* Align the parameters of all nodes in schedule "schedule" * to those of "space". */ __isl_give isl_schedule *isl_schedule_align_params( __isl_take isl_schedule *schedule, __isl_take isl_space *space) { schedule = isl_schedule_map_schedule_node_bottom_up(schedule, &align_params, space); isl_space_free(space); return schedule; } /* Wrapper around isl_schedule_node_pullback_union_pw_multi_aff for use as * an isl_schedule_map_schedule_node_bottom_up callback. */ static __isl_give isl_schedule_node *pullback_upma( __isl_take isl_schedule_node *node, void *user) { isl_union_pw_multi_aff *upma = user; return isl_schedule_node_pullback_union_pw_multi_aff(node, isl_union_pw_multi_aff_copy(upma)); } /* Compute the pullback of "schedule" by the function represented by "upma". * In other words, plug in "upma" in the iteration domains of "schedule". * * The schedule tree is not allowed to contain any expansion nodes. */ __isl_give isl_schedule *isl_schedule_pullback_union_pw_multi_aff( __isl_take isl_schedule *schedule, __isl_take isl_union_pw_multi_aff *upma) { schedule = isl_schedule_map_schedule_node_bottom_up(schedule, &pullback_upma, upma); isl_union_pw_multi_aff_free(upma); return schedule; } /* Intersect the domain of the schedule "schedule" with "domain". * The root of "schedule" is required to be a domain node. */ __isl_give isl_schedule *isl_schedule_intersect_domain( __isl_take isl_schedule *schedule, __isl_take isl_union_set *domain) { enum isl_schedule_node_type root_type; isl_schedule_node *node; if (!schedule || !domain) goto error; root_type = isl_schedule_tree_get_type(schedule->root); if (root_type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(schedule), isl_error_invalid, "root node must be a domain node", goto error); node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); node = isl_schedule_node_domain_intersect_domain(node, domain); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; error: isl_schedule_free(schedule); isl_union_set_free(domain); return NULL; } /* Replace the domain of the schedule "schedule" with the gist * of the original domain with respect to the parameter domain "context". */ __isl_give isl_schedule *isl_schedule_gist_domain_params( __isl_take isl_schedule *schedule, __isl_take isl_set *context) { enum isl_schedule_node_type root_type; isl_schedule_node *node; if (!schedule || !context) goto error; root_type = isl_schedule_tree_get_type(schedule->root); if (root_type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(schedule), isl_error_invalid, "root node must be a domain node", goto error); node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); node = isl_schedule_node_domain_gist_params(node, context); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; error: isl_schedule_free(schedule); isl_set_free(context); return NULL; } /* Return an isl_union_map representation of the schedule. * If we still have access to the schedule tree, then we return * an isl_union_map corresponding to the subtree schedule of the child * of the root domain node. That is, we do not intersect the domain * of the returned isl_union_map with the domain constraints. * Otherwise, we must have removed it because we created a band forest. * If so, we extract the isl_union_map from the forest. * This reconstructed schedule map * then needs to be padded with zeros to unify the schedule space * since the result of isl_band_list_get_suffix_schedule may not have * a unified schedule space. */ __isl_give isl_union_map *isl_schedule_get_map(__isl_keep isl_schedule *sched) { enum isl_schedule_node_type type; isl_schedule_node *node; isl_union_map *umap; if (!sched) return NULL; if (sched->root) { type = isl_schedule_tree_get_type(sched->root); if (type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(sched), isl_error_internal, "root node not a domain node", return NULL); node = isl_schedule_get_root(sched); node = isl_schedule_node_child(node, 0); umap = isl_schedule_node_get_subtree_schedule_union_map(node); isl_schedule_node_free(node); return umap; } umap = isl_band_list_get_suffix_schedule(sched->band_forest); return pad_schedule_map(umap); } static __isl_give isl_band_list *construct_band_list( __isl_take isl_schedule_node *node, __isl_take isl_union_set *domain, __isl_keep isl_band *parent); /* Construct an isl_band structure from the given schedule tree node, * which may be either a band node or a leaf node. * In the latter case, construct a zero-dimensional band. * "domain" is the universe set of the domain elements that reach "node". * "parent" is the parent isl_band of the isl_band constructed * by this function. * * In case of a band node, we copy the properties (except tilability, * which is implicit in an isl_band) to the isl_band. * We assume that the band node is not zero-dimensional. * If the child of the band node is not a leaf node, * then we extract the children of the isl_band from this child. */ static __isl_give isl_band *construct_band(__isl_take isl_schedule_node *node, __isl_take isl_union_set *domain, __isl_keep isl_band *parent) { int i; isl_ctx *ctx; isl_band *band = NULL; isl_multi_union_pw_aff *mupa; if (!node || !domain) goto error; ctx = isl_schedule_node_get_ctx(node); band = isl_band_alloc(ctx); if (!band) goto error; band->schedule = node->schedule; band->parent = parent; if (isl_schedule_node_get_type(node) == isl_schedule_node_leaf) { band->n = 0; band->pma = isl_union_pw_multi_aff_from_domain(domain); isl_schedule_node_free(node); return band; } band->n = isl_schedule_node_band_n_member(node); if (band->n == 0) isl_die(ctx, isl_error_unsupported, "zero-dimensional band nodes not supported", goto error); band->coincident = isl_alloc_array(ctx, int, band->n); if (band->n && !band->coincident) goto error; for (i = 0; i < band->n; ++i) band->coincident[i] = isl_schedule_node_band_member_get_coincident(node, i); mupa = isl_schedule_node_band_get_partial_schedule(node); band->pma = isl_union_pw_multi_aff_from_multi_union_pw_aff(mupa); if (!band->pma) goto error; node = isl_schedule_node_child(node, 0); if (isl_schedule_node_get_type(node) == isl_schedule_node_leaf) { isl_schedule_node_free(node); isl_union_set_free(domain); return band; } band->children = construct_band_list(node, domain, band); if (!band->children) return isl_band_free(band); return band; error: isl_union_set_free(domain); isl_schedule_node_free(node); isl_band_free(band); return NULL; } /* Construct a list of isl_band structures from the children of "node". * "node" itself is a sequence or set node, so that each of the child nodes * is a filter node and the list returned by node_construct_band_list * consists of a single element. * "domain" is the universe set of the domain elements that reach "node". * "parent" is the parent isl_band of the isl_band structures constructed * by this function. */ static __isl_give isl_band_list *construct_band_list_from_children( __isl_take isl_schedule_node *node, __isl_take isl_union_set *domain, __isl_keep isl_band *parent) { int i, n; isl_ctx *ctx; isl_band_list *list; n = isl_schedule_node_n_children(node); ctx = isl_schedule_node_get_ctx(node); list = isl_band_list_alloc(ctx, 0); for (i = 0; i < n; ++i) { isl_schedule_node *child; isl_band_list *list_i; child = isl_schedule_node_get_child(node, i); list_i = construct_band_list(child, isl_union_set_copy(domain), parent); list = isl_band_list_concat(list, list_i); } isl_union_set_free(domain); isl_schedule_node_free(node); return list; } /* Construct an isl_band structure from the given sequence node * (or set node that is treated as a sequence node). * A single-dimensional band is created with as schedule for each of * filters of the children, the corresponding child position. * "domain" is the universe set of the domain elements that reach "node". * "parent" is the parent isl_band of the isl_band constructed * by this function. */ static __isl_give isl_band_list *construct_band_list_sequence( __isl_take isl_schedule_node *node, __isl_take isl_union_set *domain, __isl_keep isl_band *parent) { int i, n; isl_ctx *ctx; isl_band *band = NULL; isl_space *space; isl_union_pw_multi_aff *upma; if (!node || !domain) goto error; ctx = isl_schedule_node_get_ctx(node); band = isl_band_alloc(ctx); if (!band) goto error; band->schedule = node->schedule; band->parent = parent; band->n = 1; band->coincident = isl_calloc_array(ctx, int, band->n); if (!band->coincident) goto error; n = isl_schedule_node_n_children(node); space = isl_union_set_get_space(domain); upma = isl_union_pw_multi_aff_empty(isl_space_copy(space)); space = isl_space_set_from_params(space); space = isl_space_add_dims(space, isl_dim_set, 1); for (i = 0; i < n; ++i) { isl_schedule_node *child; isl_union_set *filter; isl_val *v; isl_val_list *vl; isl_multi_val *mv; isl_union_pw_multi_aff *upma_i; child = isl_schedule_node_get_child(node, i); filter = isl_schedule_node_filter_get_filter(child); isl_schedule_node_free(child); filter = isl_union_set_intersect(filter, isl_union_set_copy(domain)); v = isl_val_int_from_si(ctx, i); vl = isl_val_list_from_val(v); mv = isl_multi_val_from_val_list(isl_space_copy(space), vl); upma_i = isl_union_pw_multi_aff_multi_val_on_domain(filter, mv); upma = isl_union_pw_multi_aff_union_add(upma, upma_i); } isl_space_free(space); band->pma = upma; if (!band->pma) goto error; band->children = construct_band_list_from_children(node, domain, band); if (!band->children) band = isl_band_free(band); return isl_band_list_from_band(band); error: isl_union_set_free(domain); isl_schedule_node_free(node); isl_band_free(band); return NULL; } /* Construct a list of isl_band structures from "node" depending * on the type of "node". * "domain" is the universe set of the domain elements that reach "node". * "parent" is the parent isl_band of the isl_band structures constructed * by this function. * * If schedule_separate_components is set then set nodes are treated * as sequence nodes. Otherwise, we directly extract an (implicitly * parallel) list of isl_band structures. * * If "node" is a filter, then "domain" is updated by the filter. */ static __isl_give isl_band_list *construct_band_list( __isl_take isl_schedule_node *node, __isl_take isl_union_set *domain, __isl_keep isl_band *parent) { enum isl_schedule_node_type type; isl_ctx *ctx; isl_band *band; isl_band_list *list; isl_union_set *filter; if (!node || !domain) goto error; type = isl_schedule_node_get_type(node); switch (type) { case isl_schedule_node_error: goto error; case isl_schedule_node_context: isl_die(isl_schedule_node_get_ctx(node), isl_error_unsupported, "context nodes not supported", goto error); case isl_schedule_node_domain: isl_die(isl_schedule_node_get_ctx(node), isl_error_invalid, "internal domain nodes not allowed", goto error); case isl_schedule_node_expansion: isl_die(isl_schedule_node_get_ctx(node), isl_error_unsupported, "expansion nodes not supported", goto error); case isl_schedule_node_extension: isl_die(isl_schedule_node_get_ctx(node), isl_error_unsupported, "extension nodes not supported", goto error); case isl_schedule_node_filter: filter = isl_schedule_node_filter_get_filter(node); domain = isl_union_set_intersect(domain, filter); node = isl_schedule_node_child(node, 0); return construct_band_list(node, domain, parent); case isl_schedule_node_guard: isl_die(isl_schedule_node_get_ctx(node), isl_error_unsupported, "guard nodes not supported", goto error); case isl_schedule_node_mark: isl_die(isl_schedule_node_get_ctx(node), isl_error_unsupported, "mark nodes not supported", goto error); case isl_schedule_node_set: ctx = isl_schedule_node_get_ctx(node); if (isl_options_get_schedule_separate_components(ctx)) return construct_band_list_sequence(node, domain, parent); else return construct_band_list_from_children(node, domain, parent); case isl_schedule_node_sequence: return construct_band_list_sequence(node, domain, parent); case isl_schedule_node_leaf: case isl_schedule_node_band: band = construct_band(node, domain, parent); list = isl_band_list_from_band(band); break; } return list; error: isl_union_set_free(domain); isl_schedule_node_free(node); return NULL; } /* Return the roots of a band forest representation of the schedule. * The band forest is constructed from the schedule tree, * but once such a band forest is * constructed, we forget about the original schedule tree since * the user may modify the schedule through the band forest. */ __isl_give isl_band_list *isl_schedule_get_band_forest( __isl_keep isl_schedule *schedule) { isl_schedule_node *node; isl_union_set *domain; if (!schedule) return NULL; if (schedule->root) { node = isl_schedule_get_root(schedule); domain = isl_schedule_node_domain_get_domain(node); domain = isl_union_set_universe(domain); node = isl_schedule_node_child(node, 0); schedule->band_forest = construct_band_list(node, domain, NULL); schedule->root = isl_schedule_tree_free(schedule->root); } return isl_band_list_dup(schedule->band_forest); } /* Call "fn" on each band in the schedule in depth-first post-order. */ int isl_schedule_foreach_band(__isl_keep isl_schedule *sched, int (*fn)(__isl_keep isl_band *band, void *user), void *user) { int r; isl_band_list *forest; if (!sched) return -1; forest = isl_schedule_get_band_forest(sched); r = isl_band_list_foreach_band(forest, fn, user); isl_band_list_free(forest); return r; } static __isl_give isl_printer *print_band_list(__isl_take isl_printer *p, __isl_keep isl_band_list *list); static __isl_give isl_printer *print_band(__isl_take isl_printer *p, __isl_keep isl_band *band) { isl_band_list *children; p = isl_printer_start_line(p); p = isl_printer_print_union_pw_multi_aff(p, band->pma); p = isl_printer_end_line(p); if (!isl_band_has_children(band)) return p; children = isl_band_get_children(band); p = isl_printer_indent(p, 4); p = print_band_list(p, children); p = isl_printer_indent(p, -4); isl_band_list_free(children); return p; } static __isl_give isl_printer *print_band_list(__isl_take isl_printer *p, __isl_keep isl_band_list *list) { int i, n; n = isl_band_list_n_band(list); for (i = 0; i < n; ++i) { isl_band *band; band = isl_band_list_get_band(list, i); p = print_band(p, band); isl_band_free(band); } return p; } /* Insert a band node with partial schedule "partial" between the domain * root node of "schedule" and its single child. * Return a pointer to the updated schedule. * * If any of the nodes in the tree depend on the set of outer band nodes * then we refuse to insert the band node. */ __isl_give isl_schedule *isl_schedule_insert_partial_schedule( __isl_take isl_schedule *schedule, __isl_take isl_multi_union_pw_aff *partial) { isl_schedule_node *node; int anchored; node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); if (!node) goto error; if (isl_schedule_node_get_type(node) != isl_schedule_node_domain) isl_die(isl_schedule_node_get_ctx(node), isl_error_internal, "root node not a domain node", goto error); node = isl_schedule_node_child(node, 0); anchored = isl_schedule_node_is_subtree_anchored(node); if (anchored < 0) goto error; if (anchored) isl_die(isl_schedule_node_get_ctx(node), isl_error_invalid, "cannot insert band node in anchored subtree", goto error); node = isl_schedule_node_insert_partial_schedule(node, partial); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; error: isl_schedule_node_free(node); isl_multi_union_pw_aff_free(partial); return NULL; } /* Insert a context node with constraints "context" between the domain * root node of "schedule" and its single child. * Return a pointer to the updated schedule. */ __isl_give isl_schedule *isl_schedule_insert_context( __isl_take isl_schedule *schedule, __isl_take isl_set *context) { isl_schedule_node *node; node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); node = isl_schedule_node_child(node, 0); node = isl_schedule_node_insert_context(node, context); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; } /* Insert a guard node with constraints "guard" between the domain * root node of "schedule" and its single child. * Return a pointer to the updated schedule. */ __isl_give isl_schedule *isl_schedule_insert_guard( __isl_take isl_schedule *schedule, __isl_take isl_set *guard) { isl_schedule_node *node; node = isl_schedule_get_root(schedule); isl_schedule_free(schedule); node = isl_schedule_node_child(node, 0); node = isl_schedule_node_insert_guard(node, guard); schedule = isl_schedule_node_get_schedule(node); isl_schedule_node_free(node); return schedule; } /* Return a tree with as top-level node a filter corresponding to "filter" and * as child, the (single) child of "tree". * However, if this single child is of type "type", then the filter is inserted * in the children of this single child instead. */ static __isl_give isl_schedule_tree *insert_filter_in_child_of_type( __isl_take isl_schedule_tree *tree, __isl_take isl_union_set *filter, enum isl_schedule_node_type type) { if (!isl_schedule_tree_has_children(tree)) { isl_schedule_tree_free(tree); return isl_schedule_tree_from_filter(filter); } else { tree = isl_schedule_tree_child(tree, 0); } if (isl_schedule_tree_get_type(tree) == type) tree = isl_schedule_tree_children_insert_filter(tree, filter); else tree = isl_schedule_tree_insert_filter(tree, filter); return tree; } /* Construct a schedule that combines the schedules "schedule1" and "schedule2" * with a top-level node (underneath the domain node) of type "type", * either isl_schedule_node_sequence or isl_schedule_node_set. * The domains of the two schedules are assumed to be disjoint. * * The new schedule has as domain the union of the domains of the two * schedules. The child of the domain node is a node of type "type" * with two filters corresponding to the domains of the input schedules. * If one (or both) of the top-level nodes of the two schedules is itself * of type "type", then the filter is pushed into the children of that * node and the sequence of set is flattened. */ __isl_give isl_schedule *isl_schedule_pair(enum isl_schedule_node_type type, __isl_take isl_schedule *schedule1, __isl_take isl_schedule *schedule2) { int disjoint; isl_ctx *ctx; enum isl_schedule_node_type root_type; isl_schedule_tree *tree1, *tree2; isl_union_set *filter1, *filter2, *domain; if (!schedule1 || !schedule2) goto error; root_type = isl_schedule_tree_get_type(schedule1->root); if (root_type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(schedule1), isl_error_internal, "root node not a domain node", goto error); root_type = isl_schedule_tree_get_type(schedule2->root); if (root_type != isl_schedule_node_domain) isl_die(isl_schedule_get_ctx(schedule1), isl_error_internal, "root node not a domain node", goto error); ctx = isl_schedule_get_ctx(schedule1); tree1 = isl_schedule_tree_copy(schedule1->root); filter1 = isl_schedule_tree_domain_get_domain(tree1); tree2 = isl_schedule_tree_copy(schedule2->root); filter2 = isl_schedule_tree_domain_get_domain(tree2); isl_schedule_free(schedule1); isl_schedule_free(schedule2); disjoint = isl_union_set_is_disjoint(filter1, filter2); if (disjoint < 0) filter1 = isl_union_set_free(filter1); if (!disjoint) isl_die(ctx, isl_error_invalid, "schedule domains not disjoint", filter1 = isl_union_set_free(filter1)); domain = isl_union_set_union(isl_union_set_copy(filter1), isl_union_set_copy(filter2)); filter1 = isl_union_set_gist(filter1, isl_union_set_copy(domain)); filter2 = isl_union_set_gist(filter2, isl_union_set_copy(domain)); tree1 = insert_filter_in_child_of_type(tree1, filter1, type); tree2 = insert_filter_in_child_of_type(tree2, filter2, type); tree1 = isl_schedule_tree_from_pair(type, tree1, tree2); tree1 = isl_schedule_tree_insert_domain(tree1, domain); return isl_schedule_from_schedule_tree(ctx, tree1); error: isl_schedule_free(schedule1); isl_schedule_free(schedule2); return NULL; } /* Construct a schedule that combines the schedules "schedule1" and "schedule2" * through a sequence node. * The domains of the input schedules are assumed to be disjoint. */ __isl_give isl_schedule *isl_schedule_sequence( __isl_take isl_schedule *schedule1, __isl_take isl_schedule *schedule2) { return isl_schedule_pair(isl_schedule_node_sequence, schedule1, schedule2); } /* Construct a schedule that combines the schedules "schedule1" and "schedule2" * through a set node. * The domains of the input schedules are assumed to be disjoint. */ __isl_give isl_schedule *isl_schedule_set( __isl_take isl_schedule *schedule1, __isl_take isl_schedule *schedule2) { return isl_schedule_pair(isl_schedule_node_set, schedule1, schedule2); } /* Print "schedule" to "p". * * If "schedule" was created from a schedule tree, then we print * the schedule tree representation. Otherwise, we print * the band forest representation. */ __isl_give isl_printer *isl_printer_print_schedule(__isl_take isl_printer *p, __isl_keep isl_schedule *schedule) { isl_band_list *forest; if (!schedule) return isl_printer_free(p); if (schedule->root) return isl_printer_print_schedule_tree(p, schedule->root); forest = isl_schedule_get_band_forest(schedule); p = print_band_list(p, forest); isl_band_list_free(forest); return p; } void isl_schedule_dump(__isl_keep isl_schedule *schedule) { isl_printer *printer; if (!schedule) return; printer = isl_printer_to_file(isl_schedule_get_ctx(schedule), stderr); printer = isl_printer_set_yaml_style(printer, ISL_YAML_STYLE_BLOCK); printer = isl_printer_print_schedule(printer, schedule); isl_printer_free(printer); } /* Return a string representation of "schedule". * Print the schedule in flow format. */ __isl_give char *isl_schedule_to_str(__isl_keep isl_schedule *schedule) { isl_printer *printer; char *s; if (!schedule) return NULL; printer = isl_printer_to_str(isl_schedule_get_ctx(schedule)); printer = isl_printer_set_yaml_style(printer, ISL_YAML_STYLE_FLOW); printer = isl_printer_print_schedule(printer, schedule); s = isl_printer_get_str(printer); isl_printer_free(printer); return s; }