/* * Copyright 2008-2009 Katholieke Universiteit Leuven * Copyright 2011 INRIA Saclay * Copyright 2012-2013 Ecole Normale Superieure * Copyright 2017 Sven Verdoolaege * * Use of this software is governed by the MIT license * * Written by Sven Verdoolaege, K.U.Leuven, Departement * Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium * and 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 #define xS(TYPE,NAME) struct TYPE ## _ ## NAME #define S(TYPE,NAME) xS(TYPE,NAME) isl_ctx *FN(LIST(EL),get_ctx)(__isl_keep LIST(EL) *list) { return list ? list->ctx : NULL; } __isl_give LIST(EL) *FN(LIST(EL),alloc)(isl_ctx *ctx, int n) { LIST(EL) *list; if (n < 0) isl_die(ctx, isl_error_invalid, "cannot create list of negative length", return NULL); list = isl_alloc(ctx, LIST(EL), sizeof(LIST(EL)) + (n - 1) * sizeof(struct EL *)); if (!list) return NULL; list->ctx = ctx; isl_ctx_ref(ctx); list->ref = 1; list->size = n; list->n = 0; return list; } __isl_give LIST(EL) *FN(LIST(EL),copy)(__isl_keep LIST(EL) *list) { if (!list) return NULL; list->ref++; return list; } __isl_give LIST(EL) *FN(LIST(EL),dup)(__isl_keep LIST(EL) *list) { int i; LIST(EL) *dup; if (!list) return NULL; dup = FN(LIST(EL),alloc)(FN(LIST(EL),get_ctx)(list), list->n); if (!dup) return NULL; for (i = 0; i < list->n; ++i) dup = FN(LIST(EL),add)(dup, FN(EL,copy)(list->p[i])); return dup; } __isl_give LIST(EL) *FN(LIST(EL),cow)(__isl_take LIST(EL) *list) { if (!list) return NULL; if (list->ref == 1) return list; list->ref--; return FN(LIST(EL),dup)(list); } /* Make sure "list" has room for at least "n" more pieces. * Always return a list with a single reference. * * If there is only one reference to list, we extend it in place. * Otherwise, we create a new LIST(EL) and copy the elements. */ static __isl_give LIST(EL) *FN(LIST(EL),grow)(__isl_take LIST(EL) *list, int n) { isl_ctx *ctx; int i, new_size; LIST(EL) *res; if (!list) return NULL; if (list->ref == 1 && list->n + n <= list->size) return list; ctx = FN(LIST(EL),get_ctx)(list); new_size = ((list->n + n + 1) * 3) / 2; if (list->ref == 1) { res = isl_realloc(ctx, list, LIST(EL), sizeof(LIST(EL)) + (new_size - 1) * sizeof(EL *)); if (!res) return FN(LIST(EL),free)(list); res->size = new_size; return res; } if (list->n + n <= list->size && list->size < new_size) new_size = list->size; res = FN(LIST(EL),alloc)(ctx, new_size); if (!res) return FN(LIST(EL),free)(list); for (i = 0; i < list->n; ++i) res = FN(LIST(EL),add)(res, FN(EL,copy)(list->p[i])); FN(LIST(EL),free)(list); return res; } /* Check that "index" is a valid position in "list". */ static isl_stat FN(LIST(EL),check_index)(__isl_keep LIST(EL) *list, int index) { if (!list) return isl_stat_error; if (index < 0 || index >= list->n) isl_die(FN(LIST(EL),get_ctx)(list), isl_error_invalid, "index out of bounds", return isl_stat_error); return isl_stat_ok; } __isl_give LIST(EL) *FN(LIST(EL),add)(__isl_take LIST(EL) *list, __isl_take struct EL *el) { list = FN(LIST(EL),grow)(list, 1); if (!list || !el) goto error; list->p[list->n] = el; list->n++; return list; error: FN(EL,free)(el); FN(LIST(EL),free)(list); return NULL; } /* Remove the "n" elements starting at "first" from "list". */ __isl_give LIST(EL) *FN(LIST(EL),drop)(__isl_take LIST(EL) *list, unsigned first, unsigned n) { int i; if (!list) return NULL; if (first + n > list->n || first + n < first) isl_die(list->ctx, isl_error_invalid, "index out of bounds", return FN(LIST(EL),free)(list)); if (n == 0) return list; list = FN(LIST(EL),cow)(list); if (!list) return NULL; for (i = 0; i < n; ++i) FN(EL,free)(list->p[first + i]); for (i = first; i + n < list->n; ++i) list->p[i] = list->p[i + n]; list->n -= n; return list; } /* Remove all elements from "list". */ __isl_give LIST(EL) *FN(LIST(EL),clear)(__isl_take LIST(EL) *list) { if (!list) return NULL; return FN(LIST(EL),drop)(list, 0, list->n); } /* Insert "el" at position "pos" in "list". * * If there is only one reference to "list" and if it already has space * for one extra element, we insert it directly into "list". * Otherwise, we create a new list consisting of "el" and copied * elements from "list". */ __isl_give LIST(EL) *FN(LIST(EL),insert)(__isl_take LIST(EL) *list, unsigned pos, __isl_take struct EL *el) { int i; isl_ctx *ctx; LIST(EL) *res; if (!list || !el) goto error; ctx = FN(LIST(EL),get_ctx)(list); if (pos > list->n) isl_die(ctx, isl_error_invalid, "index out of bounds", goto error); if (list->ref == 1 && list->size > list->n) { for (i = list->n; i > pos; --i) list->p[i] = list->p[i - 1]; list->n++; list->p[pos] = el; return list; } res = FN(LIST(EL),alloc)(ctx, list->n + 1); for (i = 0; i < pos; ++i) res = FN(LIST(EL),add)(res, FN(EL,copy)(list->p[i])); res = FN(LIST(EL),add)(res, el); for (i = pos; i < list->n; ++i) res = FN(LIST(EL),add)(res, FN(EL,copy)(list->p[i])); FN(LIST(EL),free)(list); return res; error: FN(EL,free)(el); FN(LIST(EL),free)(list); return NULL; } __isl_null LIST(EL) *FN(LIST(EL),free)(__isl_take LIST(EL) *list) { int i; if (!list) return NULL; if (--list->ref > 0) return NULL; isl_ctx_deref(list->ctx); for (i = 0; i < list->n; ++i) FN(EL,free)(list->p[i]); free(list); return NULL; } /* Return the number of elements in "list". */ isl_size FN(LIST(EL),size)(__isl_keep LIST(EL) *list) { return list ? list->n : isl_size_error; } /* This is an alternative name for the function above. */ isl_size FN(FN(LIST(EL),n),EL_BASE)(__isl_keep LIST(EL) *list) { return FN(LIST(EL),size)(list); } /* Return the element at position "index" in "list". */ __isl_keep EL *FN(LIST(EL),peek)(__isl_keep LIST(EL) *list, int index) { if (FN(LIST(EL),check_index)(list, index) < 0) return NULL; return list->p[index]; } /* Return a copy of the element at position "index" in "list". */ __isl_give EL *FN(LIST(EL),get_at)(__isl_keep LIST(EL) *list, int index) { return FN(EL,copy)(FN(LIST(EL),peek)(list, index)); } /* This is an alternative name for the function above. */ __isl_give EL *FN(FN(LIST(EL),get),EL_BASE)(__isl_keep LIST(EL) *list, int index) { return FN(LIST(EL),get_at)(list, index); } /* Replace the element at position "index" in "list" by "el". */ __isl_give LIST(EL) *FN(LIST(EL),set_at)(__isl_take LIST(EL) *list, int index, __isl_take EL *el) { if (!list || !el) goto error; if (FN(LIST(EL),check_index)(list, index) < 0) goto error; if (list->p[index] == el) { FN(EL,free)(el); return list; } list = FN(LIST(EL),cow)(list); if (!list) goto error; FN(EL,free)(list->p[index]); list->p[index] = el; return list; error: FN(EL,free)(el); FN(LIST(EL),free)(list); return NULL; } /* This is an alternative name for the function above. */ __isl_give LIST(EL) *FN(FN(LIST(EL),set),EL_BASE)(__isl_take LIST(EL) *list, int index, __isl_take EL *el) { return FN(LIST(EL),set_at)(list, index, el); } /* Return the element at position "index" of "list". * This may be either a copy or the element itself * if there is only one reference to "list". * This allows the element to be modified inplace * if both the list and the element have only a single reference. * The caller is not allowed to modify "list" between * this call to isl_list_*_take_* and a subsequent call * to isl_list_*_restore_*. * The only exception is that isl_list_*_free can be called instead. */ static __isl_give EL *FN(FN(LIST(EL),take),EL_BASE)(__isl_keep LIST(EL) *list, int index) { EL *el; if (FN(LIST(EL),check_index)(list, index) < 0) return NULL; if (list->ref != 1) return FN(FN(LIST(EL),get),EL_BASE)(list, index); el = list->p[index]; list->p[index] = NULL; return el; } /* Set the element at position "index" of "list" to "el", * where the position may be empty due to a previous call * to isl_list_*_take_*. */ static __isl_give LIST(EL) *FN(FN(LIST(EL),restore),EL_BASE)( __isl_take LIST(EL) *list, int index, __isl_take EL *el) { return FN(FN(LIST(EL),set),EL_BASE)(list, index, el); } /* Swap the elements of "list" in positions "pos1" and "pos2". */ __isl_give LIST(EL) *FN(LIST(EL),swap)(__isl_take LIST(EL) *list, unsigned pos1, unsigned pos2) { EL *el1, *el2; if (pos1 == pos2) return list; el1 = FN(FN(LIST(EL),take),EL_BASE)(list, pos1); el2 = FN(FN(LIST(EL),take),EL_BASE)(list, pos2); list = FN(FN(LIST(EL),restore),EL_BASE)(list, pos1, el2); list = FN(FN(LIST(EL),restore),EL_BASE)(list, pos2, el1); return list; } /* Reverse the elements of "list". */ __isl_give LIST(EL) *FN(LIST(EL),reverse)(__isl_take LIST(EL) *list) { int i, n; n = FN(LIST(EL),size)(list); for (i = 0; i < n - 1 - i; ++i) list = FN(LIST(EL),swap)(list, i, n - 1 - i); return list; } isl_stat FN(LIST(EL),foreach)(__isl_keep LIST(EL) *list, isl_stat (*fn)(__isl_take EL *el, void *user), void *user) { int i; if (!list) return isl_stat_error; for (i = 0; i < list->n; ++i) { EL *el = FN(EL,copy)(list->p[i]); if (!el) return isl_stat_error; if (fn(el, user) < 0) return isl_stat_error; } return isl_stat_ok; } /* Does "test" succeed on every element of "list"? */ isl_bool FN(LIST(EL),every)(__isl_keep LIST(EL) *list, isl_bool (*test)(__isl_keep EL *el, void *user), void *user) { int i; if (!list) return isl_bool_error; for (i = 0; i < list->n; ++i) { isl_bool r; r = test(list->p[i], user); if (r < 0 || !r) return r; } return isl_bool_true; } /* Replace each element in "list" by the result of calling "fn" * on the element. */ __isl_give LIST(EL) *FN(LIST(EL),map)(__isl_keep LIST(EL) *list, __isl_give EL *(*fn)(__isl_take EL *el, void *user), void *user) { int i, n; if (!list) return NULL; n = list->n; for (i = 0; i < n; ++i) { EL *el = FN(FN(LIST(EL),take),EL_BASE)(list, i); if (!el) return FN(LIST(EL),free)(list); el = fn(el, user); list = FN(FN(LIST(EL),restore),EL_BASE)(list, i, el); } return list; } /* Internal data structure for isl_*_list_sort. * * "cmp" is the original comparison function. * "user" is a user provided pointer that should be passed to "cmp". */ S(LIST(EL),sort_data) { int (*cmp)(__isl_keep EL *a, __isl_keep EL *b, void *user); void *user; }; /* Compare two entries of an isl_*_list based on the user provided * comparison function on pairs of isl_* objects. */ static int FN(LIST(EL),cmp)(const void *a, const void *b, void *user) { S(LIST(EL),sort_data) *data = user; EL * const *el1 = a; EL * const *el2 = b; return data->cmp(*el1, *el2, data->user); } /* Sort the elements of "list" in ascending order according to * comparison function "cmp". */ __isl_give LIST(EL) *FN(LIST(EL),sort)(__isl_take LIST(EL) *list, int (*cmp)(__isl_keep EL *a, __isl_keep EL *b, void *user), void *user) { S(LIST(EL),sort_data) data = { cmp, user }; if (!list) return NULL; if (list->n <= 1) return list; list = FN(LIST(EL),cow)(list); if (!list) return NULL; if (isl_sort(list->p, list->n, sizeof(list->p[0]), &FN(LIST(EL),cmp), &data) < 0) return FN(LIST(EL),free)(list); return list; } /* Internal data structure for isl_*_list_foreach_scc. * * "list" is the original list. * "follows" is the user provided callback that defines the edges of the graph. */ S(LIST(EL),foreach_scc_data) { LIST(EL) *list; isl_bool (*follows)(__isl_keep EL *a, __isl_keep EL *b, void *user); void *follows_user; }; /* Does element i of data->list follow element j? * * Use the user provided callback to find out. */ static isl_bool FN(LIST(EL),follows)(int i, int j, void *user) { S(LIST(EL),foreach_scc_data) *data = user; return data->follows(data->list->p[i], data->list->p[j], data->follows_user); } /* Call "fn" on the sublist of "list" that consists of the elements * with indices specified by the "n" elements of "pos". */ static isl_stat FN(LIST(EL),call_on_scc)(__isl_keep LIST(EL) *list, int *pos, int n, isl_stat (*fn)(__isl_take LIST(EL) *scc, void *user), void *user) { int i; isl_ctx *ctx; LIST(EL) *slice; ctx = FN(LIST(EL),get_ctx)(list); slice = FN(LIST(EL),alloc)(ctx, n); for (i = 0; i < n; ++i) { EL *el; el = FN(EL,copy)(list->p[pos[i]]); slice = FN(LIST(EL),add)(slice, el); } return fn(slice, user); } /* Call "fn" on each of the strongly connected components (SCCs) of * the graph with as vertices the elements of "list" and * a directed edge from node b to node a iff follows(a, b) * returns 1. follows should return -1 on error. * * If SCC a contains a node i that follows a node j in another SCC b * (i.e., follows(i, j, user) returns 1), then fn will be called on SCC a * after being called on SCC b. * * We simply call isl_tarjan_graph_init, extract the SCCs from the result and * call fn on each of them. */ isl_stat FN(LIST(EL),foreach_scc)(__isl_keep LIST(EL) *list, isl_bool (*follows)(__isl_keep EL *a, __isl_keep EL *b, void *user), void *follows_user, isl_stat (*fn)(__isl_take LIST(EL) *scc, void *user), void *fn_user) { S(LIST(EL),foreach_scc_data) data = { list, follows, follows_user }; int i, n; isl_ctx *ctx; struct isl_tarjan_graph *g; if (!list) return isl_stat_error; if (list->n == 0) return isl_stat_ok; if (list->n == 1) return fn(FN(LIST(EL),copy)(list), fn_user); ctx = FN(LIST(EL),get_ctx)(list); n = list->n; g = isl_tarjan_graph_init(ctx, n, &FN(LIST(EL),follows), &data); if (!g) return isl_stat_error; i = 0; do { int first; if (g->order[i] == -1) isl_die(ctx, isl_error_internal, "cannot happen", break); first = i; while (g->order[i] != -1) { ++i; --n; } if (first == 0 && n == 0) { isl_tarjan_graph_free(g); return fn(FN(LIST(EL),copy)(list), fn_user); } if (FN(LIST(EL),call_on_scc)(list, g->order + first, i - first, fn, fn_user) < 0) break; ++i; } while (n); isl_tarjan_graph_free(g); return n > 0 ? isl_stat_error : isl_stat_ok; } __isl_give LIST(EL) *FN(FN(LIST(EL),from),EL_BASE)(__isl_take EL *el) { isl_ctx *ctx; LIST(EL) *list; if (!el) return NULL; ctx = FN(EL,get_ctx)(el); list = FN(LIST(EL),alloc)(ctx, 1); if (!list) goto error; list = FN(LIST(EL),add)(list, el); return list; error: FN(EL,free)(el); return NULL; } /* This function performs the same operation as isl_*_list_from_*, * but is considered as a function on the element when exported. */ __isl_give LIST(EL) *FN(EL,to_list)(__isl_take EL *el) { return FN(FN(LIST(EL),from),EL_BASE)(el); } /* Append the elements of "list2" to "list1", where "list1" is known * to have only a single reference and enough room to hold * the extra elements. */ static __isl_give LIST(EL) *FN(LIST(EL),concat_inplace)( __isl_take LIST(EL) *list1, __isl_take LIST(EL) *list2) { int i; for (i = 0; i < list2->n; ++i) list1 = FN(LIST(EL),add)(list1, FN(EL,copy)(list2->p[i])); FN(LIST(EL),free)(list2); return list1; } /* Concatenate "list1" and "list2". * If "list1" has only one reference and has enough room * for the elements of "list2", the add the elements to "list1" itself. * Otherwise, create a new list to store the result. */ __isl_give LIST(EL) *FN(LIST(EL),concat)(__isl_take LIST(EL) *list1, __isl_take LIST(EL) *list2) { int i; isl_ctx *ctx; LIST(EL) *res; if (!list1 || !list2) goto error; if (list1->ref == 1 && list1->n + list2->n <= list1->size) return FN(LIST(EL),concat_inplace)(list1, list2); ctx = FN(LIST(EL),get_ctx)(list1); res = FN(LIST(EL),alloc)(ctx, list1->n + list2->n); for (i = 0; i < list1->n; ++i) res = FN(LIST(EL),add)(res, FN(EL,copy)(list1->p[i])); for (i = 0; i < list2->n; ++i) res = FN(LIST(EL),add)(res, FN(EL,copy)(list2->p[i])); FN(LIST(EL),free)(list1); FN(LIST(EL),free)(list2); return res; error: FN(LIST(EL),free)(list1); FN(LIST(EL),free)(list2); return NULL; } __isl_give isl_printer *CAT(isl_printer_print_,LIST(EL_BASE))( __isl_take isl_printer *p, __isl_keep LIST(EL) *list) { int i; if (!p || !list) goto error; p = isl_printer_print_str(p, "("); for (i = 0; i < list->n; ++i) { if (i) p = isl_printer_print_str(p, ","); p = CAT(isl_printer_print_,EL_BASE)(p, list->p[i]); } p = isl_printer_print_str(p, ")"); return p; error: isl_printer_free(p); return NULL; } #undef BASE #define BASE LIST(EL_BASE) #define PRINT_DUMP_DEFAULT 0 #include "print_templ.c" #undef PRINT_DUMP_DEFAULT