/* * Copyright 2011 Sven Verdoolaege * Copyright 2012-2013 Ecole Normale Superieure * * Use of this software is governed by the MIT license * * Written by Sven Verdoolaege, * Ecole Normale Superieure, 45 rue d’Ulm, 75230 Paris, France */ #include #include #include #define xCAT(A,B) A ## B #define CAT(A,B) xCAT(A,B) #undef EL #define EL CAT(isl_,BASE) #define xFN(TYPE,NAME) TYPE ## _ ## NAME #define FN(TYPE,NAME) xFN(TYPE,NAME) #define xMULTI(BASE) isl_multi_ ## BASE #define MULTI(BASE) xMULTI(BASE) #define MULTI_NAME(BASE) "isl_multi_" #BASE #define xLIST(EL) EL ## _list #define LIST(EL) xLIST(EL) isl_ctx *FN(MULTI(BASE),get_ctx)(__isl_keep MULTI(BASE) *multi) { return multi ? isl_space_get_ctx(multi->space) : NULL; } __isl_give isl_space *FN(MULTI(BASE),get_space)(__isl_keep MULTI(BASE) *multi) { return multi ? isl_space_copy(multi->space) : NULL; } __isl_give isl_space *FN(MULTI(BASE),get_domain_space)( __isl_keep MULTI(BASE) *multi) { return multi ? isl_space_domain(isl_space_copy(multi->space)) : NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),alloc)(__isl_take isl_space *space) { isl_ctx *ctx; int n; MULTI(BASE) *multi; if (!space) return NULL; ctx = isl_space_get_ctx(space); n = isl_space_dim(space, isl_dim_out); multi = isl_calloc(ctx, MULTI(BASE), sizeof(MULTI(BASE)) + (n - 1) * sizeof(struct EL *)); if (!multi) goto error; multi->space = space; multi->n = n; multi->ref = 1; return multi; error: isl_space_free(space); return NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),dup)(__isl_keep MULTI(BASE) *multi) { int i; MULTI(BASE) *dup; if (!multi) return NULL; dup = FN(MULTI(BASE),alloc)(isl_space_copy(multi->space)); if (!dup) return NULL; for (i = 0; i < multi->n; ++i) dup = FN(FN(MULTI(BASE),set),BASE)(dup, i, FN(EL,copy)(multi->p[i])); return dup; } __isl_give MULTI(BASE) *FN(MULTI(BASE),cow)(__isl_take MULTI(BASE) *multi) { if (!multi) return NULL; if (multi->ref == 1) return multi; multi->ref--; return FN(MULTI(BASE),dup)(multi); } __isl_give MULTI(BASE) *FN(MULTI(BASE),copy)(__isl_keep MULTI(BASE) *multi) { if (!multi) return NULL; multi->ref++; return multi; } __isl_null MULTI(BASE) *FN(MULTI(BASE),free)(__isl_take MULTI(BASE) *multi) { int i; if (!multi) return NULL; if (--multi->ref > 0) return NULL; isl_space_free(multi->space); for (i = 0; i < multi->n; ++i) FN(EL,free)(multi->p[i]); free(multi); return NULL; } /* Check whether "multi" has non-zero coefficients for any dimension * in the given range or if any of these dimensions appear * with non-zero coefficients in any of the integer divisions involved. */ int FN(MULTI(BASE),involves_dims)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type, unsigned first, unsigned n) { int i; if (!multi) return -1; if (multi->n == 0 || n == 0) return 0; for (i = 0; i < multi->n; ++i) { int involves; involves = FN(EL,involves_dims)(multi->p[i], type, first, n); if (involves < 0 || involves) return involves; } return 0; } __isl_give MULTI(BASE) *FN(MULTI(BASE),insert_dims)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type, unsigned first, unsigned n) { int i; if (!multi) return NULL; if (type == isl_dim_out) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "cannot insert output/set dimensions", return FN(MULTI(BASE),free)(multi)); if (n == 0 && !isl_space_is_named_or_nested(multi->space, type)) return multi; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; multi->space = isl_space_insert_dims(multi->space, type, first, n); if (!multi->space) return FN(MULTI(BASE),free)(multi); for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,insert_dims)(multi->p[i], type, first, n); if (!multi->p[i]) return FN(MULTI(BASE),free)(multi); } return multi; } __isl_give MULTI(BASE) *FN(MULTI(BASE),add_dims)(__isl_take MULTI(BASE) *multi, enum isl_dim_type type, unsigned n) { unsigned pos; pos = FN(MULTI(BASE),dim)(multi, type); return FN(MULTI(BASE),insert_dims)(multi, type, pos, n); } unsigned FN(MULTI(BASE),dim)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type) { return multi ? isl_space_dim(multi->space, type) : 0; } /* Return the position of the first dimension of "type" with id "id". * Return -1 if there is no such dimension. */ int FN(MULTI(BASE),find_dim_by_id)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type, __isl_keep isl_id *id) { if (!multi) return -1; return isl_space_find_dim_by_id(multi->space, type, id); } /* Return the id of the given dimension. */ __isl_give isl_id *FN(MULTI(BASE),get_dim_id)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type, unsigned pos) { return multi ? isl_space_get_dim_id(multi->space, type, pos) : NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),set_dim_name)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type, unsigned pos, const char *s) { int i; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; multi->space = isl_space_set_dim_name(multi->space, type, pos, s); if (!multi->space) return FN(MULTI(BASE),free)(multi); if (type == isl_dim_out) return multi; for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,set_dim_name)(multi->p[i], type, pos, s); if (!multi->p[i]) return FN(MULTI(BASE),free)(multi); } return multi; } const char *FN(MULTI(BASE),get_tuple_name)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type) { return multi ? isl_space_get_tuple_name(multi->space, type) : NULL; } /* Does the specified tuple have an id? */ int FN(MULTI(BASE),has_tuple_id)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type) { return multi ? isl_space_has_tuple_id(multi->space, type) : -1; } /* Return the id of the specified tuple. */ __isl_give isl_id *FN(MULTI(BASE),get_tuple_id)(__isl_keep MULTI(BASE) *multi, enum isl_dim_type type) { return multi ? isl_space_get_tuple_id(multi->space, type) : NULL; } __isl_give EL *FN(FN(MULTI(BASE),get),BASE)(__isl_keep MULTI(BASE) *multi, int pos) { isl_ctx *ctx; if (!multi) return NULL; ctx = FN(MULTI(BASE),get_ctx)(multi); if (pos < 0 || pos >= multi->n) isl_die(ctx, isl_error_invalid, "index out of bounds", return NULL); return FN(EL,copy)(multi->p[pos]); } __isl_give MULTI(BASE) *FN(FN(MULTI(BASE),set),BASE)( __isl_take MULTI(BASE) *multi, int pos, __isl_take EL *el) { isl_space *multi_space = NULL; isl_space *el_space = NULL; int match; multi = FN(MULTI(BASE),cow)(multi); if (!multi || !el) goto error; multi_space = FN(MULTI(BASE),get_space)(multi); match = FN(EL,matching_params)(el, multi_space); if (match < 0) goto error; if (!match) { multi = FN(MULTI(BASE),align_params)(multi, FN(EL,get_space)(el)); isl_space_free(multi_space); multi_space = FN(MULTI(BASE),get_space)(multi); el = FN(EL,align_params)(el, isl_space_copy(multi_space)); } if (FN(EL,check_match_domain_space)(el, multi_space) < 0) goto error; if (pos < 0 || pos >= multi->n) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "index out of bounds", goto error); FN(EL,free)(multi->p[pos]); multi->p[pos] = el; isl_space_free(multi_space); isl_space_free(el_space); return multi; error: FN(MULTI(BASE),free)(multi); FN(EL,free)(el); isl_space_free(multi_space); isl_space_free(el_space); return NULL; } /* Reset the space of "multi". This function is called from isl_pw_templ.c * and doesn't know if the space of an element object is represented * directly or through its domain. It therefore passes along both, * which we pass along to the element function since we don't how * that is represented either. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),reset_space_and_domain)( __isl_take MULTI(BASE) *multi, __isl_take isl_space *space, __isl_take isl_space *domain) { int i; multi = FN(MULTI(BASE),cow)(multi); if (!multi || !space || !domain) goto error; for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,reset_domain_space)(multi->p[i], isl_space_copy(domain)); if (!multi->p[i]) goto error; } isl_space_free(domain); isl_space_free(multi->space); multi->space = space; return multi; error: isl_space_free(domain); isl_space_free(space); FN(MULTI(BASE),free)(multi); return NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),reset_domain_space)( __isl_take MULTI(BASE) *multi, __isl_take isl_space *domain) { isl_space *space; space = isl_space_extend_domain_with_range(isl_space_copy(domain), isl_space_copy(multi->space)); return FN(MULTI(BASE),reset_space_and_domain)(multi, space, domain); } __isl_give MULTI(BASE) *FN(MULTI(BASE),reset_space)( __isl_take MULTI(BASE) *multi, __isl_take isl_space *space) { isl_space *domain; domain = isl_space_domain(isl_space_copy(space)); return FN(MULTI(BASE),reset_space_and_domain)(multi, space, domain); } /* Set the id of the given dimension of "multi" to "id". */ __isl_give MULTI(BASE) *FN(MULTI(BASE),set_dim_id)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type, unsigned pos, __isl_take isl_id *id) { isl_space *space; multi = FN(MULTI(BASE),cow)(multi); if (!multi || !id) goto error; space = FN(MULTI(BASE),get_space)(multi); space = isl_space_set_dim_id(space, type, pos, id); return FN(MULTI(BASE),reset_space)(multi, space); error: isl_id_free(id); FN(MULTI(BASE),free)(multi); return NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),set_tuple_name)( __isl_keep MULTI(BASE) *multi, enum isl_dim_type type, const char *s) { isl_space *space; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; space = FN(MULTI(BASE),get_space)(multi); space = isl_space_set_tuple_name(space, type, s); return FN(MULTI(BASE),reset_space)(multi, space); } __isl_give MULTI(BASE) *FN(MULTI(BASE),set_tuple_id)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type, __isl_take isl_id *id) { isl_space *space; multi = FN(MULTI(BASE),cow)(multi); if (!multi) goto error; space = FN(MULTI(BASE),get_space)(multi); space = isl_space_set_tuple_id(space, type, id); return FN(MULTI(BASE),reset_space)(multi, space); error: isl_id_free(id); return NULL; } /* Drop the id on the specified tuple. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),reset_tuple_id)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type) { isl_space *space; if (!multi) return NULL; if (!FN(MULTI(BASE),has_tuple_id)(multi, type)) return multi; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; space = FN(MULTI(BASE),get_space)(multi); space = isl_space_reset_tuple_id(space, type); return FN(MULTI(BASE),reset_space)(multi, space); } /* Reset the user pointer on all identifiers of parameters and tuples * of the space of "multi". */ __isl_give MULTI(BASE) *FN(MULTI(BASE),reset_user)( __isl_take MULTI(BASE) *multi) { isl_space *space; space = FN(MULTI(BASE),get_space)(multi); space = isl_space_reset_user(space); return FN(MULTI(BASE),reset_space)(multi, space); } __isl_give MULTI(BASE) *FN(MULTI(BASE),realign_domain)( __isl_take MULTI(BASE) *multi, __isl_take isl_reordering *exp) { int i; multi = FN(MULTI(BASE),cow)(multi); if (!multi || !exp) goto error; for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,realign_domain)(multi->p[i], isl_reordering_copy(exp)); if (!multi->p[i]) goto error; } multi = FN(MULTI(BASE),reset_domain_space)(multi, isl_space_copy(exp->dim)); isl_reordering_free(exp); return multi; error: isl_reordering_free(exp); FN(MULTI(BASE),free)(multi); return NULL; } /* Align the parameters of "multi" to those of "model". */ __isl_give MULTI(BASE) *FN(MULTI(BASE),align_params)( __isl_take MULTI(BASE) *multi, __isl_take isl_space *model) { isl_ctx *ctx; isl_reordering *exp; if (!multi || !model) goto error; if (isl_space_match(multi->space, isl_dim_param, model, isl_dim_param)) { isl_space_free(model); return multi; } ctx = isl_space_get_ctx(model); if (!isl_space_has_named_params(model)) isl_die(ctx, isl_error_invalid, "model has unnamed parameters", goto error); if (!isl_space_has_named_params(multi->space)) isl_die(ctx, isl_error_invalid, "input has unnamed parameters", goto error); model = isl_space_params(model); exp = isl_parameter_alignment_reordering(multi->space, model); exp = isl_reordering_extend_space(exp, FN(MULTI(BASE),get_domain_space)(multi)); multi = FN(MULTI(BASE),realign_domain)(multi, exp); isl_space_free(model); return multi; error: isl_space_free(model); FN(MULTI(BASE),free)(multi); return NULL; } #if !defined(NO_GIST) || !defined(NO_INTERSECT_DOMAIN) static __isl_give MULTI(BASE) *FN(MULTI(BASE),align_params_multi_set_and)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *set, __isl_give MULTI(BASE) *(*fn)(__isl_take MULTI(BASE) *multi, __isl_take isl_set *set)) { isl_ctx *ctx; if (!multi || !set) goto error; if (isl_space_match(multi->space, isl_dim_param, set->dim, isl_dim_param)) return fn(multi, set); ctx = FN(MULTI(BASE),get_ctx)(multi); if (!isl_space_has_named_params(multi->space) || !isl_space_has_named_params(set->dim)) isl_die(ctx, isl_error_invalid, "unaligned unnamed parameters", goto error); multi = FN(MULTI(BASE),align_params)(multi, isl_set_get_space(set)); set = isl_set_align_params(set, FN(MULTI(BASE),get_space)(multi)); return fn(multi, set); error: FN(MULTI(BASE),free)(multi); isl_set_free(set); return NULL; } #endif #ifndef NO_GIST __isl_give MULTI(BASE) *FN(MULTI(BASE),gist_aligned)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *context) { int i; multi = FN(MULTI(BASE),cow)(multi); if (!multi || !context) goto error; for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,gist)(multi->p[i], isl_set_copy(context)); if (!multi->p[i]) goto error; } isl_set_free(context); return multi; error: isl_set_free(context); FN(MULTI(BASE),free)(multi); return NULL; } __isl_give MULTI(BASE) *FN(MULTI(BASE),gist)(__isl_take MULTI(BASE) *multi, __isl_take isl_set *context) { return FN(MULTI(BASE),align_params_multi_set_and)(multi, context, &FN(MULTI(BASE),gist_aligned)); } __isl_give MULTI(BASE) *FN(MULTI(BASE),gist_params)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *context) { isl_space *space = FN(MULTI(BASE),get_domain_space)(multi); isl_set *dom_context = isl_set_universe(space); dom_context = isl_set_intersect_params(dom_context, context); return FN(MULTI(BASE),gist)(multi, dom_context); } #endif #ifndef NO_INTERSECT_DOMAIN /* Transform the domain of "multi" by combining it with "domain" * using "fn". * * The parameters of "multi" and "domain" are assumed to have been aligned. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),intersect_aligned)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *domain, __isl_give EL *(*fn)(EL *el, __isl_take isl_set *set2)) { int i; if (!multi || !domain) goto error; if (multi->n == 0) { isl_set_free(domain); return multi; } multi = FN(MULTI(BASE),cow)(multi); if (!multi) goto error; for (i = 0; i < multi->n; ++i) { multi->p[i] = fn(multi->p[i], isl_set_copy(domain)); if (!multi->p[i]) goto error; } isl_set_free(domain); return multi; error: isl_set_free(domain); FN(MULTI(BASE),free)(multi); return NULL; } /* Intersect the domain of "multi" with "domain". * * The parameters of "multi" and "domain" are assumed to have been aligned. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),intersect_domain_aligned)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *domain) { return FN(MULTI(BASE),intersect_aligned)(multi, domain, &FN(EL,intersect_domain)); } /* Intersect the domain of "multi" with "domain". */ __isl_give MULTI(BASE) *FN(MULTI(BASE),intersect_domain)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *domain) { return FN(MULTI(BASE),align_params_multi_set_and)(multi, domain, &FN(MULTI(BASE),intersect_domain_aligned)); } /* Intersect the parameter domain of "multi" with "domain". * * The parameters of "multi" and "domain" are assumed to have been aligned. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),intersect_params_aligned)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *domain) { return FN(MULTI(BASE),intersect_aligned)(multi, domain, &FN(EL,intersect_params)); } /* Intersect the parameter domain of "multi" with "domain". */ __isl_give MULTI(BASE) *FN(MULTI(BASE),intersect_params)( __isl_take MULTI(BASE) *multi, __isl_take isl_set *domain) { return FN(MULTI(BASE),align_params_multi_set_and)(multi, domain, &FN(MULTI(BASE),intersect_params_aligned)); } #endif __isl_give MULTI(BASE) *FN(FN(MULTI(BASE),from),LIST(BASE))( __isl_take isl_space *space, __isl_take LIST(EL) *list) { int i; int n; isl_ctx *ctx; MULTI(BASE) *multi; if (!space || !list) goto error; ctx = isl_space_get_ctx(space); n = FN(FN(LIST(EL),n),BASE)(list); if (n != isl_space_dim(space, isl_dim_out)) isl_die(ctx, isl_error_invalid, "invalid number of elements in list", goto error); multi = FN(MULTI(BASE),alloc)(isl_space_copy(space)); for (i = 0; i < n; ++i) { multi = FN(FN(MULTI(BASE),set),BASE)(multi, i, FN(FN(LIST(EL),get),BASE)(list, i)); } isl_space_free(space); FN(LIST(EL),free)(list); return multi; error: isl_space_free(space); FN(LIST(EL),free)(list); return NULL; } #ifndef NO_IDENTITY /* Create a multi expression in the given space that maps each * input dimension to the corresponding output dimension. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),identity)(__isl_take isl_space *space) { int i, n; isl_local_space *ls; MULTI(BASE) *multi; if (!space) return NULL; if (isl_space_is_set(space)) isl_die(isl_space_get_ctx(space), isl_error_invalid, "expecting map space", goto error); n = isl_space_dim(space, isl_dim_out); if (n != isl_space_dim(space, isl_dim_in)) isl_die(isl_space_get_ctx(space), isl_error_invalid, "number of input and output dimensions needs to be " "the same", goto error); multi = FN(MULTI(BASE),alloc)(isl_space_copy(space)); if (!n) { isl_space_free(space); return multi; } space = isl_space_domain(space); ls = isl_local_space_from_space(space); for (i = 0; i < n; ++i) { EL *el; el = FN(EL,var_on_domain)(isl_local_space_copy(ls), isl_dim_set, i); multi = FN(FN(MULTI(BASE),set),BASE)(multi, i, el); } isl_local_space_free(ls); return multi; error: isl_space_free(space); return NULL; } #endif /* Construct a multi expression in the given space with value zero in * each of the output dimensions. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),zero)(__isl_take isl_space *space) { int n; MULTI(BASE) *multi; if (!space) return NULL; n = isl_space_dim(space , isl_dim_out); multi = FN(MULTI(BASE),alloc)(isl_space_copy(space)); if (!n) isl_space_free(space); else { int i; isl_local_space *ls; EL *el; space = isl_space_domain(space); ls = isl_local_space_from_space(space); el = FN(EL,zero_on_domain)(ls); for (i = 0; i < n; ++i) multi = FN(FN(MULTI(BASE),set),BASE)(multi, i, FN(EL,copy)(el)); FN(EL,free)(el); } return multi; } #ifndef NO_FROM_BASE __isl_give MULTI(BASE) *FN(FN(MULTI(BASE),from),BASE)(__isl_take EL *el) { MULTI(BASE) *multi; multi = FN(MULTI(BASE),alloc)(FN(EL,get_space)(el)); multi = FN(FN(MULTI(BASE),set),BASE)(multi, 0, el); return multi; } #endif __isl_give MULTI(BASE) *FN(MULTI(BASE),drop_dims)( __isl_take MULTI(BASE) *multi, enum isl_dim_type type, unsigned first, unsigned n) { int i; unsigned dim; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; dim = FN(MULTI(BASE),dim)(multi, type); if (first + n > dim || first + n < first) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "index out of bounds", return FN(MULTI(BASE),cow)(multi)); multi->space = isl_space_drop_dims(multi->space, type, first, n); if (!multi->space) return FN(MULTI(BASE),cow)(multi); if (type == isl_dim_out) { for (i = 0; i < n; ++i) FN(EL,free)(multi->p[first + i]); for (i = first; i + n < multi->n; ++i) multi->p[i] = multi->p[i + n]; multi->n -= n; return multi; } for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,drop_dims)(multi->p[i], type, first, n); if (!multi->p[i]) return FN(MULTI(BASE),cow)(multi); } return multi; } /* Align the parameters of "multi1" and "multi2" (if needed) and call "fn". */ static __isl_give MULTI(BASE) *FN(MULTI(BASE),align_params_multi_multi_and)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2, __isl_give MULTI(BASE) *(*fn)(__isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2)) { isl_ctx *ctx; if (!multi1 || !multi2) goto error; if (isl_space_match(multi1->space, isl_dim_param, multi2->space, isl_dim_param)) return fn(multi1, multi2); ctx = FN(MULTI(BASE),get_ctx)(multi1); if (!isl_space_has_named_params(multi1->space) || !isl_space_has_named_params(multi2->space)) isl_die(ctx, isl_error_invalid, "unaligned unnamed parameters", goto error); multi1 = FN(MULTI(BASE),align_params)(multi1, FN(MULTI(BASE),get_space)(multi2)); multi2 = FN(MULTI(BASE),align_params)(multi2, FN(MULTI(BASE),get_space)(multi1)); return fn(multi1, multi2); error: FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return NULL; } /* Given two MULTI(BASE)s A -> B and C -> D, * construct a MULTI(BASE) (A * C) -> [B -> D]. * * The parameters are assumed to have been aligned. */ static __isl_give MULTI(BASE) *FN(MULTI(BASE),range_product_aligned)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2) { int i, n1, n2; EL *el; isl_space *space; MULTI(BASE) *res; if (!multi1 || !multi2) goto error; space = isl_space_range_product(FN(MULTI(BASE),get_space)(multi1), FN(MULTI(BASE),get_space)(multi2)); res = FN(MULTI(BASE),alloc)(space); n1 = FN(MULTI(BASE),dim)(multi1, isl_dim_out); n2 = FN(MULTI(BASE),dim)(multi2, isl_dim_out); for (i = 0; i < n1; ++i) { el = FN(FN(MULTI(BASE),get),BASE)(multi1, i); res = FN(FN(MULTI(BASE),set),BASE)(res, i, el); } for (i = 0; i < n2; ++i) { el = FN(FN(MULTI(BASE),get),BASE)(multi2, i); res = FN(FN(MULTI(BASE),set),BASE)(res, n1 + i, el); } FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return res; error: FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return NULL; } /* Given two MULTI(BASE)s A -> B and C -> D, * construct a MULTI(BASE) (A * C) -> [B -> D]. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),range_product)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2) { return FN(MULTI(BASE),align_params_multi_multi_and)(multi1, multi2, &FN(MULTI(BASE),range_product_aligned)); } /* Is the range of "multi" a wrapped relation? */ int FN(MULTI(BASE),range_is_wrapping)(__isl_keep MULTI(BASE) *multi) { if (!multi) return -1; return isl_space_range_is_wrapping(multi->space); } /* Given a function A -> [B -> C], extract the function A -> B. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),range_factor_domain)( __isl_take MULTI(BASE) *multi) { isl_space *space; int total, keep; if (!multi) return NULL; if (!isl_space_range_is_wrapping(multi->space)) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "range is not a product", return FN(MULTI(BASE),free)(multi)); space = FN(MULTI(BASE),get_space)(multi); total = isl_space_dim(space, isl_dim_out); space = isl_space_range_factor_domain(space); keep = isl_space_dim(space, isl_dim_out); multi = FN(MULTI(BASE),drop_dims)(multi, isl_dim_out, keep, total - keep); multi = FN(MULTI(BASE),reset_space)(multi, space); return multi; } /* Given a function A -> [B -> C], extract the function A -> C. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),range_factor_range)( __isl_take MULTI(BASE) *multi) { isl_space *space; int total, keep; if (!multi) return NULL; if (!isl_space_range_is_wrapping(multi->space)) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "range is not a product", return FN(MULTI(BASE),free)(multi)); space = FN(MULTI(BASE),get_space)(multi); total = isl_space_dim(space, isl_dim_out); space = isl_space_range_factor_range(space); keep = isl_space_dim(space, isl_dim_out); multi = FN(MULTI(BASE),drop_dims)(multi, isl_dim_out, 0, total - keep); multi = FN(MULTI(BASE),reset_space)(multi, space); return multi; } /* Given two MULTI(BASE)s A -> B and C -> D, * construct a MULTI(BASE) [A -> C] -> [B -> D]. * * The parameters are assumed to have been aligned. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),product_aligned)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2) { int i; EL *el; isl_space *space; MULTI(BASE) *res; int in1, in2, out1, out2; in1 = FN(MULTI(BASE),dim)(multi1, isl_dim_in); in2 = FN(MULTI(BASE),dim)(multi2, isl_dim_in); out1 = FN(MULTI(BASE),dim)(multi1, isl_dim_out); out2 = FN(MULTI(BASE),dim)(multi2, isl_dim_out); space = isl_space_product(FN(MULTI(BASE),get_space)(multi1), FN(MULTI(BASE),get_space)(multi2)); res = FN(MULTI(BASE),alloc)(isl_space_copy(space)); space = isl_space_domain(space); for (i = 0; i < out1; ++i) { el = FN(FN(MULTI(BASE),get),BASE)(multi1, i); el = FN(EL,insert_dims)(el, isl_dim_in, in1, in2); el = FN(EL,reset_domain_space)(el, isl_space_copy(space)); res = FN(FN(MULTI(BASE),set),BASE)(res, i, el); } for (i = 0; i < out2; ++i) { el = FN(FN(MULTI(BASE),get),BASE)(multi2, i); el = FN(EL,insert_dims)(el, isl_dim_in, 0, in1); el = FN(EL,reset_domain_space)(el, isl_space_copy(space)); res = FN(FN(MULTI(BASE),set),BASE)(res, out1 + i, el); } isl_space_free(space); FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return res; } /* Given two MULTI(BASE)s A -> B and C -> D, * construct a MULTI(BASE) [A -> C] -> [B -> D]. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),product)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2) { return FN(MULTI(BASE),align_params_multi_multi_and)(multi1, multi2, &FN(MULTI(BASE),product_aligned)); } __isl_give MULTI(BASE) *FN(MULTI(BASE),flatten_range)( __isl_take MULTI(BASE) *multi) { if (!multi) return NULL; if (!multi->space->nested[1]) return multi; multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; multi->space = isl_space_flatten_range(multi->space); if (!multi->space) return FN(MULTI(BASE),free)(multi); return multi; } /* Given two MULTI(BASE)s A -> B and C -> D, * construct a MULTI(BASE) (A * C) -> (B, D). */ __isl_give MULTI(BASE) *FN(MULTI(BASE),flat_range_product)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2) { MULTI(BASE) *multi; multi = FN(MULTI(BASE),range_product)(multi1, multi2); multi = FN(MULTI(BASE),flatten_range)(multi); return multi; } /* Given two multi expressions, "multi1" * * [A] -> [B1 B2] * * where B2 starts at position "pos", and "multi2" * * [A] -> [D] * * return the multi expression * * [A] -> [B1 D B2] */ __isl_give MULTI(BASE) *FN(MULTI(BASE),range_splice)( __isl_take MULTI(BASE) *multi1, unsigned pos, __isl_take MULTI(BASE) *multi2) { MULTI(BASE) *res; unsigned dim; if (!multi1 || !multi2) goto error; dim = FN(MULTI(BASE),dim)(multi1, isl_dim_out); if (pos > dim) isl_die(FN(MULTI(BASE),get_ctx)(multi1), isl_error_invalid, "index out of bounds", goto error); res = FN(MULTI(BASE),copy)(multi1); res = FN(MULTI(BASE),drop_dims)(res, isl_dim_out, pos, dim - pos); multi1 = FN(MULTI(BASE),drop_dims)(multi1, isl_dim_out, 0, pos); res = FN(MULTI(BASE),flat_range_product)(res, multi2); res = FN(MULTI(BASE),flat_range_product)(res, multi1); return res; error: FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return NULL; } /* Given two multi expressions, "multi1" * * [A1 A2] -> [B1 B2] * * where A2 starts at position "in_pos" and B2 starts at position "out_pos", * and "multi2" * * [C] -> [D] * * return the multi expression * * [A1 C A2] -> [B1 D B2] * * We first insert input dimensions to obtain * * [A1 C A2] -> [B1 B2] * * and * * [A1 C A2] -> [D] * * and then apply range_splice. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),splice)( __isl_take MULTI(BASE) *multi1, unsigned in_pos, unsigned out_pos, __isl_take MULTI(BASE) *multi2) { unsigned n_in1; unsigned n_in2; if (!multi1 || !multi2) goto error; n_in1 = FN(MULTI(BASE),dim)(multi1, isl_dim_in); if (in_pos > n_in1) isl_die(FN(MULTI(BASE),get_ctx)(multi1), isl_error_invalid, "index out of bounds", goto error); n_in2 = FN(MULTI(BASE),dim)(multi2, isl_dim_in); multi1 = FN(MULTI(BASE),insert_dims)(multi1, isl_dim_in, in_pos, n_in2); multi2 = FN(MULTI(BASE),insert_dims)(multi2, isl_dim_in, n_in2, n_in1 - in_pos); multi2 = FN(MULTI(BASE),insert_dims)(multi2, isl_dim_in, 0, in_pos); return FN(MULTI(BASE),range_splice)(multi1, out_pos, multi2); error: FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return NULL; } /* This function is currently only used from isl_aff.c */ static __isl_give MULTI(BASE) *FN(MULTI(BASE),bin_op)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2, __isl_give EL *(*fn)(__isl_take EL *, __isl_take EL *)) __attribute__ ((unused)); /* Pairwise perform "fn" to the elements of "multi1" and "multi2" and * return the result. */ static __isl_give MULTI(BASE) *FN(MULTI(BASE),bin_op)( __isl_take MULTI(BASE) *multi1, __isl_take MULTI(BASE) *multi2, __isl_give EL *(*fn)(__isl_take EL *, __isl_take EL *)) { int i; isl_ctx *ctx; multi1 = FN(MULTI(BASE),cow)(multi1); if (!multi1 || !multi2) goto error; ctx = FN(MULTI(BASE),get_ctx)(multi1); if (!isl_space_is_equal(multi1->space, multi2->space)) isl_die(ctx, isl_error_invalid, "spaces don't match", goto error); for (i = 0; i < multi1->n; ++i) { multi1->p[i] = fn(multi1->p[i], FN(EL,copy)(multi2->p[i])); if (!multi1->p[i]) goto error; } FN(MULTI(BASE),free)(multi2); return multi1; error: FN(MULTI(BASE),free)(multi1); FN(MULTI(BASE),free)(multi2); return NULL; } /* Multiply the elements of "multi" by "v" and return the result. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),scale_val)(__isl_take MULTI(BASE) *multi, __isl_take isl_val *v) { int i; if (!multi || !v) goto error; if (isl_val_is_one(v)) { isl_val_free(v); return multi; } if (!isl_val_is_rat(v)) isl_die(isl_val_get_ctx(v), isl_error_invalid, "expecting rational factor", goto error); multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,scale_val)(multi->p[i], isl_val_copy(v)); if (!multi->p[i]) goto error; } isl_val_free(v); return multi; error: isl_val_free(v); return FN(MULTI(BASE),free)(multi); } /* Multiply the elements of "multi" by the corresponding element of "mv" * and return the result. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),scale_multi_val)( __isl_take MULTI(BASE) *multi, __isl_take isl_multi_val *mv) { int i; if (!multi || !mv) goto error; if (!isl_space_tuple_is_equal(multi->space, isl_dim_out, mv->space, isl_dim_set)) isl_die(isl_multi_val_get_ctx(mv), isl_error_invalid, "spaces don't match", goto error); multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; for (i = 0; i < multi->n; ++i) { isl_val *v; v = isl_multi_val_get_val(mv, i); multi->p[i] = FN(EL,scale_val)(multi->p[i], v); if (!multi->p[i]) goto error; } isl_multi_val_free(mv); return multi; error: isl_multi_val_free(mv); return FN(MULTI(BASE),free)(multi); } /* Divide the elements of "multi" by the corresponding element of "mv" * and return the result. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),scale_down_multi_val)( __isl_take MULTI(BASE) *multi, __isl_take isl_multi_val *mv) { int i; if (!multi || !mv) goto error; if (!isl_space_tuple_is_equal(multi->space, isl_dim_out, mv->space, isl_dim_set)) isl_die(isl_multi_val_get_ctx(mv), isl_error_invalid, "spaces don't match", goto error); multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; for (i = 0; i < multi->n; ++i) { isl_val *v; v = isl_multi_val_get_val(mv, i); multi->p[i] = FN(EL,scale_down_val)(multi->p[i], v); if (!multi->p[i]) goto error; } isl_multi_val_free(mv); return multi; error: isl_multi_val_free(mv); return FN(MULTI(BASE),free)(multi); } #ifndef NO_MOVE_DIMS /* Move the "n" dimensions of "src_type" starting at "src_pos" of "multi" * to dimensions of "dst_type" at "dst_pos". * * We only support moving input dimensions to parameters and vice versa. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),move_dims)(__isl_take MULTI(BASE) *multi, enum isl_dim_type dst_type, unsigned dst_pos, enum isl_dim_type src_type, unsigned src_pos, unsigned n) { int i; if (!multi) return NULL; if (n == 0 && !isl_space_is_named_or_nested(multi->space, src_type) && !isl_space_is_named_or_nested(multi->space, dst_type)) return multi; if (dst_type == isl_dim_out || src_type == isl_dim_out) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "cannot move output/set dimension", return FN(MULTI(BASE),free)(multi)); if (dst_type == isl_dim_div || src_type == isl_dim_div) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "cannot move divs", return FN(MULTI(BASE),free)(multi)); if (src_pos + n > isl_space_dim(multi->space, src_type)) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "range out of bounds", return FN(MULTI(BASE),free)(multi)); if (dst_type == src_type) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_unsupported, "moving dims within the same type not supported", return FN(MULTI(BASE),free)(multi)); multi = FN(MULTI(BASE),cow)(multi); if (!multi) return NULL; multi->space = isl_space_move_dims(multi->space, dst_type, dst_pos, src_type, src_pos, n); if (!multi->space) return FN(MULTI(BASE),free)(multi); for (i = 0; i < multi->n; ++i) { multi->p[i] = FN(EL,move_dims)(multi->p[i], dst_type, dst_pos, src_type, src_pos, n); if (!multi->p[i]) return FN(MULTI(BASE),free)(multi); } return multi; } #endif /* Convert a multiple expression defined over a parameter domain * into one that is defined over a zero-dimensional set. */ __isl_give MULTI(BASE) *FN(MULTI(BASE),from_range)( __isl_take MULTI(BASE) *multi) { isl_space *space; if (!multi) return NULL; if (!isl_space_is_set(multi->space)) isl_die(FN(MULTI(BASE),get_ctx)(multi), isl_error_invalid, "not living in a set space", return FN(MULTI(BASE),free)(multi)); space = FN(MULTI(BASE),get_space)(multi); space = isl_space_from_range(space); multi = FN(MULTI(BASE),reset_space)(multi, space); return multi; } /* Are "multi1" and "multi2" obviously equal? */ int FN(MULTI(BASE),plain_is_equal)(__isl_keep MULTI(BASE) *multi1, __isl_keep MULTI(BASE) *multi2) { int i; int equal; if (!multi1 || !multi2) return -1; if (multi1->n != multi2->n) return 0; equal = isl_space_is_equal(multi1->space, multi2->space); if (equal < 0 || !equal) return equal; for (i = 0; i < multi1->n; ++i) { equal = FN(EL,plain_is_equal)(multi1->p[i], multi2->p[i]); if (equal < 0 || !equal) return equal; } return 1; } #ifndef NO_DOMAIN /* Return the shared domain of the elements of "multi". */ __isl_give isl_set *FN(MULTI(BASE),domain)(__isl_take MULTI(BASE) *multi) { int i; isl_set *dom; if (!multi) return NULL; dom = isl_set_universe(FN(MULTI(BASE),get_domain_space)(multi)); for (i = 0; i < multi->n; ++i) { isl_set *dom_i; dom_i = FN(EL,domain)(FN(FN(MULTI(BASE),get),BASE)(multi, i)); dom = isl_set_intersect(dom, dom_i); } FN(MULTI(BASE),free)(multi); return dom; } #endif