/* * Copyright 2010-2011 INRIA Saclay * Copyright 2011 Sven Verdoolaege * 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 "opt_type.h" __isl_give PW *FN(PW,alloc_size)(__isl_take isl_space *space OPT_TYPE_PARAM, int n) { isl_ctx *ctx; struct PW *pw; if (!space) return NULL; ctx = isl_space_get_ctx(space); isl_assert(ctx, n >= 0, goto error); pw = isl_alloc(ctx, struct PW, sizeof(struct PW) + (n - 1) * sizeof(S(PW,piece))); if (!pw) goto error; pw->ref = 1; OPT_SET_TYPE(pw->, type); pw->size = n; pw->n = 0; pw->dim = space; return pw; error: isl_space_free(space); return NULL; } __isl_give PW *FN(PW,ZERO)(__isl_take isl_space *space OPT_TYPE_PARAM) { return FN(PW,alloc_size)(space OPT_TYPE_ARG(NO_LOC), 0); } /* Add a piece with domain "set" and base expression "el" * to the piecewise expression "pw". * * Do this independently of the values of "set" and "el", * such that this function can be used by isl_pw_*_dup. */ static __isl_give PW *FN(PW,add_dup_piece)(__isl_take PW *pw, __isl_take isl_set *set, __isl_take EL *el) { isl_ctx *ctx; isl_space *el_dim = NULL; if (!pw || !set || !el) goto error; ctx = isl_set_get_ctx(set); if (!OPT_EQUAL_TYPES(pw->, el->)) isl_die(ctx, isl_error_invalid, "fold types don't match", goto error); el_dim = FN(EL,get_space(el)); isl_assert(ctx, isl_space_is_equal(pw->dim, el_dim), goto error); isl_assert(ctx, pw->n < pw->size, goto error); pw->p[pw->n].set = set; pw->p[pw->n].FIELD = el; pw->n++; isl_space_free(el_dim); return pw; error: isl_space_free(el_dim); FN(PW,free)(pw); isl_set_free(set); FN(EL,free)(el); return NULL; } /* Add a piece with domain "set" and base expression "el" * to the piecewise expression "pw", provided the domain * is not obviously empty and the base expression * is not equal to the default value. */ __isl_give PW *FN(PW,add_piece)(__isl_take PW *pw, __isl_take isl_set *set, __isl_take EL *el) { isl_bool skip; skip = isl_set_plain_is_empty(set); if (skip >= 0 && !skip) skip = FN(EL,EL_IS_ZERO)(el); if (skip >= 0 && !skip) return FN(PW,add_dup_piece)(pw, set, el); isl_set_free(set); FN(EL,free)(el); if (skip < 0) return FN(PW,free)(pw); return pw; } /* Does the space of "set" correspond to that of the domain of "el". */ static isl_bool FN(PW,compatible_domain)(__isl_keep EL *el, __isl_keep isl_set *set) { isl_bool ok; isl_space *el_space, *set_space; if (!set || !el) return isl_bool_error; set_space = isl_set_get_space(set); el_space = FN(EL,get_space)(el); ok = isl_space_is_domain_internal(set_space, el_space); isl_space_free(el_space); isl_space_free(set_space); return ok; } /* Check that the space of "set" corresponds to that of the domain of "el". */ static isl_stat FN(PW,check_compatible_domain)(__isl_keep EL *el, __isl_keep isl_set *set) { isl_bool ok; ok = FN(PW,compatible_domain)(el, set); if (ok < 0) return isl_stat_error; if (!ok) isl_die(isl_set_get_ctx(set), isl_error_invalid, "incompatible spaces", return isl_stat_error); return isl_stat_ok; } __isl_give PW *FN(PW,alloc)(OPT_TYPE_PARAM_FIRST __isl_take isl_set *set, __isl_take EL *el) { PW *pw; if (FN(PW,check_compatible_domain)(el, set) < 0) goto error; pw = FN(PW,alloc_size)(FN(EL,get_space)(el) OPT_TYPE_ARG(NO_LOC), 1); return FN(PW,add_piece)(pw, set, el); error: isl_set_free(set); FN(EL,free)(el); return NULL; } __isl_give PW *FN(PW,dup)(__isl_keep PW *pw) { int i; PW *dup; if (!pw) return NULL; dup = FN(PW,alloc_size)(isl_space_copy(pw->dim) OPT_TYPE_ARG(pw->), pw->n); if (!dup) return NULL; for (i = 0; i < pw->n; ++i) dup = FN(PW,add_dup_piece)(dup, isl_set_copy(pw->p[i].set), FN(EL,copy)(pw->p[i].FIELD)); return dup; } __isl_give PW *FN(PW,cow)(__isl_take PW *pw) { if (!pw) return NULL; if (pw->ref == 1) return pw; pw->ref--; return FN(PW,dup)(pw); } __isl_give PW *FN(PW,copy)(__isl_keep PW *pw) { if (!pw) return NULL; pw->ref++; return pw; } __isl_null PW *FN(PW,free)(__isl_take PW *pw) { int i; if (!pw) return NULL; if (--pw->ref > 0) return NULL; for (i = 0; i < pw->n; ++i) { isl_set_free(pw->p[i].set); FN(EL,free)(pw->p[i].FIELD); } isl_space_free(pw->dim); free(pw); return NULL; } /* Return the space of "pw". */ __isl_keep isl_space *FN(PW,peek_space)(__isl_keep PW *pw) { return pw ? pw->dim : NULL; } __isl_give isl_space *FN(PW,get_space)(__isl_keep PW *pw) { return isl_space_copy(FN(PW,peek_space)(pw)); } /* Return the space of "pw". * This may be either a copy or the space itself * if there is only one reference to "pw". * This allows the space to be modified inplace * if both the piecewise expression and its space have only a single reference. * The caller is not allowed to modify "pw" between this call and * a subsequent call to isl_pw_*_restore_*. * The only exception is that isl_pw_*_free can be called instead. */ static __isl_give isl_space *FN(PW,take_space)(__isl_keep PW *pw) { isl_space *space; if (!pw) return NULL; if (pw->ref != 1) return FN(PW,get_space)(pw); space = pw->dim; pw->dim = NULL; return space; } /* Set the space of "pw" to "space", where the space of "pw" may be missing * due to a preceding call to isl_pw_*_take_space. * However, in this case, "pw" only has a single reference and * then the call to isl_pw_*_cow has no effect. */ static __isl_give PW *FN(PW,restore_space)(__isl_take PW *pw, __isl_take isl_space *space) { if (!pw || !space) goto error; if (pw->dim == space) { isl_space_free(space); return pw; } pw = FN(PW,cow)(pw); if (!pw) goto error; isl_space_free(pw->dim); pw->dim = space; return pw; error: FN(PW,free)(pw); isl_space_free(space); return NULL; } /* Check that "pos" is a valid position for a cell in "pw". */ static isl_stat FN(PW,check_pos)(__isl_keep PW *pw, int pos) { if (!pw) return isl_stat_error; if (pos < 0 || pos >= pw->n) isl_die(FN(PW,get_ctx)(pw), isl_error_internal, "position out of bounds", return isl_stat_error); return isl_stat_ok; } /* Return the cell at position "pos" in "pw". */ static __isl_keep isl_set *FN(PW,peek_domain_at)(__isl_keep PW *pw, int pos) { if (FN(PW,check_pos)(pw, pos) < 0) return NULL; return pw->p[pos].set; } /* Return a copy of the cell at position "pos" in "pw". */ static __isl_give isl_set *FN(PW,get_domain_at)(__isl_keep PW *pw, int pos) { return isl_set_copy(FN(PW,peek_domain_at)(pw, pos)); } /* Return the cell at position "pos" in "pw". * This may be either a copy or the cell itself * if there is only one reference to "pw". * This allows the cell to be modified inplace * if both the piecewise expression and this cell * have only a single reference. * The caller is not allowed to modify "pw" between this call and * the subsequent call to isl_pw_*_restore_domain_at. * The only exception is that isl_pw_*_free can be called instead. */ static __isl_give isl_set *FN(PW,take_domain_at)(__isl_keep PW *pw, int pos) { isl_set *domain; if (!pw) return NULL; if (pw->ref != 1) return FN(PW,get_domain_at)(pw, pos); if (FN(PW,check_pos)(pw, pos) < 0) return NULL; domain = pw->p[pos].set; pw->p[pos].set = NULL; return domain; } /* Set the cell at position "pos" in "pw" to "el", * where this cell may be missing * due to a preceding call to isl_pw_*_take_domain_at. * However, in this case, "pw" only has a single reference and * then the call to isl_pw_*_cow has no effect. */ static __isl_give PW *FN(PW,restore_domain_at)(__isl_take PW *pw, int pos, __isl_take isl_set *domain) { if (FN(PW,check_pos)(pw, pos) < 0 || !domain) goto error; if (pw->p[pos].set == domain) { isl_set_free(domain); return pw; } pw = FN(PW,cow)(pw); if (!pw) goto error; isl_set_free(pw->p[pos].set); pw->p[pos].set = domain; return pw; error: FN(PW,free)(pw); isl_set_free(domain); return NULL; } /* Return the base expression associated to * the cell at position "pos" in "pw". */ __isl_keep EL *FN(PW,peek_base_at)(__isl_keep PW *pw, int pos) { if (FN(PW,check_pos)(pw, pos) < 0) return NULL; return pw->p[pos].FIELD; } /* Return a copy of the base expression associated to * the cell at position "pos" in "pw". */ static __isl_give EL *FN(PW,get_base_at)(__isl_keep PW *pw, int pos) { return FN(EL,copy)(FN(PW,peek_base_at)(pw, pos)); } /* Return the base expression associated to * the cell at position "pos" in "pw". * This may be either a copy or the base expression itself * if there is only one reference to "pw". * This allows the base expression to be modified inplace * if both the piecewise expression and this base expression * have only a single reference. * The caller is not allowed to modify "pw" between this call and * a subsequent call to isl_pw_*_restore_*. * The only exception is that isl_pw_*_free can be called instead. */ static __isl_give EL *FN(PW,take_base_at)(__isl_keep PW *pw, int pos) { EL *el; if (!pw) return NULL; if (pw->ref != 1) return FN(PW,get_base_at)(pw, pos); if (FN(PW,check_pos)(pw, pos) < 0) return NULL; el = pw->p[pos].FIELD; pw->p[pos].FIELD = NULL; return el; } /* Set the base expression associated to * the cell at position "pos" in "pw" to "el", * where this base expression may be missing * due to a preceding call to isl_pw_*_take_base_at. * However, in this case, "pw" only has a single reference and * then the call to isl_pw_*_cow has no effect. * If "inplace" is set, then replacing the base expression by "el" * is known not to change the meaning of "pw". It can therefore be replaced * in all references to "pw". */ static __isl_give PW *FN(PW,restore_base_at_)(__isl_take PW *pw, int pos, __isl_take EL *el, int inplace) { if (FN(PW,check_pos)(pw, pos) < 0 || !el) goto error; if (pw->p[pos].FIELD == el) { FN(EL,free)(el); return pw; } if (!inplace) pw = FN(PW,cow)(pw); if (!pw) goto error; FN(EL,free)(pw->p[pos].FIELD); pw->p[pos].FIELD = el; return pw; error: FN(PW,free)(pw); FN(EL,free)(el); return NULL; } /* Set the base expression associated to * the cell at position "pos" in "pw" to "el", * where this base expression may be missing * due to a preceding call to isl_pw_*_take_base_at. */ static __isl_give PW *FN(PW,restore_base_at)(__isl_take PW *pw, int pos, __isl_take EL *el) { return FN(PW,restore_base_at_)(pw, pos, el, 0); } /* Set the base expression associated to * the cell at position "pos" in "pw" to "el", * where this base expression may be missing * due to a preceding call to isl_pw_*_take_base_at. * Furthermore, replacing the base expression by "el" * is known not to change the meaning of "pw". */ static __isl_give PW *FN(PW,restore_base_at_inplace)(__isl_take PW *pw, int pos, __isl_take EL *el) { return FN(PW,restore_base_at_)(pw, pos, el, 1); } /* Create a piecewise expression with the given base expression on a universe * domain. */ static __isl_give PW *FN(FN(FN(PW,from),BASE),type_base)(__isl_take EL *el OPT_TYPE_PARAM) { isl_set *dom = isl_set_universe(FN(EL,get_domain_space)(el)); return FN(PW,alloc)(OPT_TYPE_ARG_FIRST(NO_LOC) dom, el); } /* Create a piecewise expression with the given base expression on a universe * domain. * * If the default value of this piecewise type is zero and * if "el" is effectively zero, then create an empty piecewise expression * instead. */ static __isl_give PW *FN(FN(FN(PW,from),BASE),type)(__isl_take EL *el OPT_TYPE_PARAM) { isl_bool is_zero; isl_space *space; if (!DEFAULT_IS_ZERO) return FN(FN(FN(PW,from),BASE),type_base)(el OPT_TYPE_ARG(NO_LOC)); is_zero = FN(EL,EL_IS_ZERO)(el); if (is_zero < 0) goto error; if (!is_zero) return FN(FN(FN(PW,from),BASE),type_base)(el OPT_TYPE_ARG(NO_LOC)); space = FN(EL,get_space)(el); FN(EL,free)(el); return FN(PW,ZERO)(space OPT_TYPE_ARG(NO_LOC)); error: FN(EL,free)(el); return NULL; } #ifdef HAS_TYPE /* Create a piecewise expression with the given base expression on a universe * domain. * * Pass along the type as an extra argument for improved uniformity * with piecewise types that do not have a fold type. */ __isl_give PW *FN(FN(PW,from),BASE)(__isl_take EL *el) { enum isl_fold type = FN(EL,get_type)(el); return FN(FN(FN(PW,from),BASE),type)(el, type); } #else __isl_give PW *FN(FN(PW,from),BASE)(__isl_take EL *el) { return FN(FN(FN(PW,from),BASE),type)(el); } #endif const char *FN(PW,get_dim_name)(__isl_keep PW *pw, enum isl_dim_type type, unsigned pos) { return pw ? isl_space_get_dim_name(pw->dim, type, pos) : NULL; } isl_bool FN(PW,has_dim_id)(__isl_keep PW *pw, enum isl_dim_type type, unsigned pos) { return pw ? isl_space_has_dim_id(pw->dim, type, pos) : isl_bool_error; } __isl_give isl_id *FN(PW,get_dim_id)(__isl_keep PW *pw, enum isl_dim_type type, unsigned pos) { return pw ? isl_space_get_dim_id(pw->dim, type, pos) : NULL; } isl_bool FN(PW,has_tuple_name)(__isl_keep PW *pw, enum isl_dim_type type) { return pw ? isl_space_has_tuple_name(pw->dim, type) : isl_bool_error; } const char *FN(PW,get_tuple_name)(__isl_keep PW *pw, enum isl_dim_type type) { return pw ? isl_space_get_tuple_name(pw->dim, type) : NULL; } isl_bool FN(PW,has_tuple_id)(__isl_keep PW *pw, enum isl_dim_type type) { return pw ? isl_space_has_tuple_id(pw->dim, type) : isl_bool_error; } __isl_give isl_id *FN(PW,get_tuple_id)(__isl_keep PW *pw, enum isl_dim_type type) { return pw ? isl_space_get_tuple_id(pw->dim, type) : NULL; } isl_bool FN(PW,IS_ZERO)(__isl_keep PW *pw) { if (!pw) return isl_bool_error; return isl_bool_ok(pw->n == 0); } static __isl_give PW *FN(PW,realign_domain)(__isl_take PW *pw, __isl_take isl_reordering *exp) { int i; isl_size n; n = FN(PW,n_piece)(pw); if (n < 0 || !exp) goto error; for (i = 0; i < n; ++i) { isl_set *domain; EL *el; domain = FN(PW,take_domain_at)(pw, i); domain = isl_set_realign(domain, isl_reordering_copy(exp)); pw = FN(PW,restore_domain_at)(pw, i, domain); el = FN(PW,take_base_at)(pw, i); el = FN(EL,realign_domain)(el, isl_reordering_copy(exp)); pw = FN(PW,restore_base_at)(pw, i, el); } pw = FN(PW,reset_domain_space)(pw, isl_reordering_get_space(exp)); isl_reordering_free(exp); return pw; error: isl_reordering_free(exp); FN(PW,free)(pw); return NULL; } #undef TYPE #define TYPE PW #include "isl_check_named_params_templ.c" /* Align the parameters of "pw" to those of "model". */ __isl_give PW *FN(PW,align_params)(__isl_take PW *pw, __isl_take isl_space *model) { isl_ctx *ctx; isl_bool equal_params; if (!pw || !model) goto error; 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 (FN(PW,check_named_params)(pw) < 0) goto error; equal_params = isl_space_has_equal_params(pw->dim, model); if (equal_params < 0) goto error; if (!equal_params) { isl_space *space; isl_reordering *exp; space = FN(PW,get_domain_space)(pw); exp = isl_parameter_alignment_reordering(space, model); isl_space_free(space); pw = FN(PW,realign_domain)(pw, exp); } isl_space_free(model); return pw; error: isl_space_free(model); FN(PW,free)(pw); return NULL; } #undef TYPE #define TYPE PW static #include "isl_align_params_bin_templ.c" #undef SUFFIX #define SUFFIX set #undef ARG1 #define ARG1 PW #undef ARG2 #define ARG2 isl_set static #include "isl_align_params_templ.c" #undef TYPE #define TYPE PW #include "isl_type_has_equal_space_bin_templ.c" #include "isl_type_check_equal_space_templ.c" /* Private version of "union_add". For isl_pw_qpolynomial and * isl_pw_qpolynomial_fold, we prefer to simply call it "add". */ static __isl_give PW *FN(PW,union_add_)(__isl_take PW *pw1, __isl_take PW *pw2) { int i, j, n; struct PW *res; isl_ctx *ctx; isl_set *set; if (FN(PW,align_params_bin)(&pw1, &pw2) < 0) goto error; ctx = isl_space_get_ctx(pw1->dim); if (!OPT_EQUAL_TYPES(pw1->, pw2->)) isl_die(ctx, isl_error_invalid, "fold types don't match", goto error); if (FN(PW,check_equal_space)(pw1, pw2) < 0) goto error; if (FN(PW,IS_ZERO)(pw1)) { FN(PW,free)(pw1); return pw2; } if (FN(PW,IS_ZERO)(pw2)) { FN(PW,free)(pw2); return pw1; } n = (pw1->n + 1) * (pw2->n + 1); res = FN(PW,alloc_size)(isl_space_copy(pw1->dim) OPT_TYPE_ARG(pw1->), n); for (i = 0; i < pw1->n; ++i) { set = isl_set_copy(pw1->p[i].set); for (j = 0; j < pw2->n; ++j) { struct isl_set *common; EL *sum; common = isl_set_intersect(isl_set_copy(pw1->p[i].set), isl_set_copy(pw2->p[j].set)); if (isl_set_plain_is_empty(common)) { isl_set_free(common); continue; } set = isl_set_subtract(set, isl_set_copy(pw2->p[j].set)); sum = FN(EL,add_on_domain)(common, FN(EL,copy)(pw1->p[i].FIELD), FN(EL,copy)(pw2->p[j].FIELD)); res = FN(PW,add_piece)(res, common, sum); } res = FN(PW,add_piece)(res, set, FN(EL,copy)(pw1->p[i].FIELD)); } for (j = 0; j < pw2->n; ++j) { set = isl_set_copy(pw2->p[j].set); for (i = 0; i < pw1->n; ++i) set = isl_set_subtract(set, isl_set_copy(pw1->p[i].set)); res = FN(PW,add_piece)(res, set, FN(EL,copy)(pw2->p[j].FIELD)); } FN(PW,free)(pw1); FN(PW,free)(pw2); return res; error: FN(PW,free)(pw1); FN(PW,free)(pw2); return NULL; } #if !DEFAULT_IS_ZERO /* Compute the sum of "pw1" and "pw2 on the union of their domains, * with the actual sum on the shared domain and * the defined expression on the symmetric difference of the domains. * * This function is only defined for object types that do not have * a default zero value. For other object types, this function * is simply called "add". */ __isl_give PW *FN(PW,union_add)(__isl_take PW *pw1, __isl_take PW *pw2) { return FN(PW,union_add_)(pw1, pw2); } #endif /* This function is currently only used from isl_aff.c */ static __isl_give PW *FN(PW,on_shared_domain_in)(__isl_take PW *pw1, __isl_take PW *pw2, __isl_take isl_space *space, __isl_give EL *(*fn)(__isl_take EL *el1, __isl_take EL *el2)) __attribute__ ((unused)); /* Apply "fn" to pairs of elements from pw1 and pw2 on shared domains. * The result of "fn" (and therefore also of this function) lives in "space". */ static __isl_give PW *FN(PW,on_shared_domain_in)(__isl_take PW *pw1, __isl_take PW *pw2, __isl_take isl_space *space, __isl_give EL *(*fn)(__isl_take EL *el1, __isl_take EL *el2)) { int i, j, n; PW *res = NULL; if (!pw1 || !pw2) goto error; n = pw1->n * pw2->n; res = FN(PW,alloc_size)(isl_space_copy(space) OPT_TYPE_ARG(pw1->), n); for (i = 0; i < pw1->n; ++i) { for (j = 0; j < pw2->n; ++j) { isl_set *common; EL *res_ij; int empty; common = isl_set_intersect( isl_set_copy(pw1->p[i].set), isl_set_copy(pw2->p[j].set)); empty = isl_set_plain_is_empty(common); if (empty < 0 || empty) { isl_set_free(common); if (empty < 0) goto error; continue; } res_ij = fn(FN(EL,copy)(pw1->p[i].FIELD), FN(EL,copy)(pw2->p[j].FIELD)); res_ij = FN(EL,gist)(res_ij, isl_set_copy(common)); res = FN(PW,add_piece)(res, common, res_ij); } } isl_space_free(space); FN(PW,free)(pw1); FN(PW,free)(pw2); return res; error: isl_space_free(space); FN(PW,free)(pw1); FN(PW,free)(pw2); FN(PW,free)(res); return NULL; } /* This function is currently only used from isl_aff.c */ static __isl_give PW *FN(PW,on_shared_domain)(__isl_take PW *pw1, __isl_take PW *pw2, __isl_give EL *(*fn)(__isl_take EL *el1, __isl_take EL *el2)) __attribute__ ((unused)); /* Apply "fn" to pairs of elements from pw1 and pw2 on shared domains. * The result of "fn" is assumed to live in the same space as "pw1" and "pw2". */ static __isl_give PW *FN(PW,on_shared_domain)(__isl_take PW *pw1, __isl_take PW *pw2, __isl_give EL *(*fn)(__isl_take EL *el1, __isl_take EL *el2)) { isl_space *space; if (FN(PW,check_equal_space)(pw1, pw2) < 0) goto error; space = isl_space_copy(pw1->dim); return FN(PW,on_shared_domain_in)(pw1, pw2, space, fn); error: FN(PW,free)(pw1); FN(PW,free)(pw2); return NULL; } /* Return the parameter domain of "pw". */ __isl_give isl_set *FN(PW,params)(__isl_take PW *pw) { return isl_set_params(FN(PW,domain)(pw)); } __isl_give isl_set *FN(PW,domain)(__isl_take PW *pw) { int i; isl_set *dom; if (!pw) return NULL; dom = isl_set_empty(FN(PW,get_domain_space)(pw)); for (i = 0; i < pw->n; ++i) dom = isl_set_union_disjoint(dom, isl_set_copy(pw->p[i].set)); FN(PW,free)(pw); return dom; } /* Exploit the equalities in the domain of piece "i" of "pw" * to simplify the associated function. * If the domain of piece "i" is empty, then remove it entirely, * replacing it with the final piece. */ static __isl_give PW *FN(PW,exploit_equalities_and_remove_if_empty)( __isl_take PW *pw, int i) { EL *el; isl_set *domain; isl_basic_set *aff; int empty; domain = FN(PW,peek_domain_at)(pw, i); empty = isl_set_plain_is_empty(domain); if (empty < 0) return FN(PW,free)(pw); if (empty) { isl_set_free(pw->p[i].set); FN(EL,free)(pw->p[i].FIELD); if (i != pw->n - 1) pw->p[i] = pw->p[pw->n - 1]; pw->n--; return pw; } aff = isl_set_affine_hull(FN(PW,get_domain_at)(pw, i)); el = FN(PW,take_base_at)(pw, i); el = FN(EL,substitute_equalities)(el, aff); pw = FN(PW,restore_base_at_inplace)(pw, i, el); return pw; } /* Restrict the domain of "pw" by combining each cell * with "set" through a call to "fn", where "fn" may be * isl_set_intersect, isl_set_intersect_params, isl_set_intersect_factor_domain, * isl_set_intersect_factor_range or isl_set_subtract. */ static __isl_give PW *FN(PW,restrict_domain)(__isl_take PW *pw, __isl_take isl_set *set, __isl_give isl_set *(*fn)(__isl_take isl_set *set1, __isl_take isl_set *set2)) { int i; isl_size n; FN(PW,align_params_set)(&pw, &set); n = FN(PW,n_piece)(pw); if (n < 0 || !set) goto error; for (i = n - 1; i >= 0; --i) { isl_set *domain; domain = FN(PW,take_domain_at)(pw, i); domain = fn(domain, isl_set_copy(set)); pw = FN(PW,restore_domain_at)(pw, i, domain); pw = FN(PW,exploit_equalities_and_remove_if_empty)(pw, i); } isl_set_free(set); return pw; error: isl_set_free(set); FN(PW,free)(pw); return NULL; } __isl_give PW *FN(PW,intersect_domain)(__isl_take PW *pw, __isl_take isl_set *context) { return FN(PW,restrict_domain)(pw, context, &isl_set_intersect); } /* Intersect the domain of "pw" with the parameter domain "context". */ __isl_give PW *FN(PW,intersect_params)(__isl_take PW *pw, __isl_take isl_set *context) { return FN(PW,restrict_domain)(pw, context, &isl_set_intersect_params); } /* Given a piecewise expression "pw" with domain in a space [A -> B] and * a set in the space A, intersect the domain with the set. */ __isl_give PW *FN(PW,intersect_domain_wrapped_domain)(__isl_take PW *pw, __isl_take isl_set *set) { return FN(PW,restrict_domain)(pw, set, &isl_set_intersect_factor_domain); } /* Given a piecewise expression "pw" with domain in a space [A -> B] and * a set in the space B, intersect the domain with the set. */ __isl_give PW *FN(PW,intersect_domain_wrapped_range)(__isl_take PW *pw, __isl_take isl_set *set) { return FN(PW,restrict_domain)(pw, set, &isl_set_intersect_factor_range); } /* Subtract "domain' from the domain of "pw". */ __isl_give PW *FN(PW,subtract_domain)(__isl_take PW *pw, __isl_take isl_set *domain) { return FN(PW,restrict_domain)(pw, domain, &isl_set_subtract); } /* Return -1 if the piece "p1" should be sorted before "p2" * and 1 if it should be sorted after "p2". * Return 0 if they do not need to be sorted in a specific order. * * The two pieces are compared on the basis of their function value expressions. */ static int FN(PW,sort_field_cmp)(const void *p1, const void *p2, void *arg) { struct FN(PW,piece) const *pc1 = p1; struct FN(PW,piece) const *pc2 = p2; return FN(EL,plain_cmp)(pc1->FIELD, pc2->FIELD); } /* Sort the pieces of "pw" according to their function value * expressions and then combine pairs of adjacent pieces with * the same such expression. * * The sorting is performed in place because it does not * change the meaning of "pw", but care needs to be * taken not to change any possible other copies of "pw" * in case anything goes wrong. */ static __isl_give PW *FN(PW,sort_unique)(__isl_take PW *pw) { int i, j; isl_set *set; if (!pw) return NULL; if (pw->n <= 1) return pw; if (isl_sort(pw->p, pw->n, sizeof(pw->p[0]), &FN(PW,sort_field_cmp), NULL) < 0) return FN(PW,free)(pw); for (i = pw->n - 1; i >= 1; --i) { isl_bool equal; EL *el, *el_prev; isl_set *set_prev; el = FN(PW,peek_base_at)(pw, i); el_prev = FN(PW,peek_base_at)(pw, i - 1); equal = FN(EL,plain_is_equal)(el, el_prev); if (equal < 0) return FN(PW,free)(pw); if (!equal) continue; set = FN(PW,get_domain_at)(pw, i); set_prev = FN(PW,get_domain_at)(pw, i - 1); set = isl_set_union(set_prev, set); if (!set) return FN(PW,free)(pw); isl_set_free(pw->p[i].set); FN(EL,free)(pw->p[i].FIELD); isl_set_free(pw->p[i - 1].set); pw->p[i - 1].set = set; for (j = i + 1; j < pw->n; ++j) pw->p[j - 1] = pw->p[j]; pw->n--; } return pw; } /* Compute the gist of "pw" with respect to the domain constraints * of "context" for the case where the domain of the last element * of "pw" is equal to "context". * Compute the gist of this element, replace * its domain by the universe and drop all other elements * as their domains are necessarily disjoint from "context". */ static __isl_give PW *FN(PW,gist_last)(__isl_take PW *pw, __isl_take isl_set *context) { int i; isl_space *space; EL *el; for (i = 0; i < pw->n - 1; ++i) { isl_set_free(pw->p[i].set); FN(EL,free)(pw->p[i].FIELD); } pw->p[0].FIELD = pw->p[pw->n - 1].FIELD; pw->p[0].set = pw->p[pw->n - 1].set; pw->n = 1; space = isl_set_get_space(context); el = FN(PW,take_base_at)(pw, 0); el = FN(EL,gist)(el, context); pw = FN(PW,restore_base_at)(pw, 0, el); context = isl_set_universe(space); pw = FN(PW,restore_domain_at)(pw, 0, context); return pw; } /* Compute the gist of "pw" with respect to the domain constraints * of "context". * Call "fn_dom" to compute the gist of the domains and * "intersect_context" to intersect the domain with the context. * * If the piecewise expression is empty or the context is the universe, * then nothing can be simplified. * If "pw" has a single domain and it is equal to "context", * then simply replace the domain by the universe. * Combine duplicate function value expressions first * to increase the chance of "pw" having a single domain. */ static __isl_give PW *FN(PW,gist_fn)(__isl_take PW *pw, __isl_take isl_set *context, __isl_give isl_set *(*fn_dom)(__isl_take isl_set *set, __isl_take isl_set *context), __isl_give isl_set *intersect_context(__isl_take isl_set *set, __isl_take isl_set *context)) { int i; int is_universe; pw = FN(PW,sort_unique)(pw); if (!pw || !context) goto error; if (pw->n == 0) { isl_set_free(context); return pw; } is_universe = isl_set_plain_is_universe(context); if (is_universe < 0) goto error; if (is_universe) { isl_set_free(context); return pw; } FN(PW,align_params_set)(&pw, &context); pw = FN(PW,cow)(pw); if (!pw) goto error; if (pw->n == 1) { int equal; equal = isl_set_plain_is_equal(pw->p[0].set, context); if (equal < 0) goto error; if (equal) return FN(PW,gist_last)(pw, context); } context = isl_set_compute_divs(context); for (i = pw->n - 1; i >= 0; --i) { isl_set *set_i; EL *el; int empty; if (i == pw->n - 1) { int equal; equal = isl_set_plain_is_equal(pw->p[i].set, context); if (equal < 0) goto error; if (equal) return FN(PW,gist_last)(pw, context); } set_i = FN(PW,get_domain_at)(pw, i); set_i = intersect_context(set_i, isl_set_copy(context)); empty = isl_set_plain_is_empty(set_i); el = FN(PW,take_base_at)(pw, i); el = FN(EL,gist)(el, set_i); pw = FN(PW,restore_base_at)(pw, i, el); set_i = FN(PW,take_domain_at)(pw, i); set_i = fn_dom(set_i, isl_set_copy(context)); pw = FN(PW,restore_domain_at)(pw, i, set_i); if (empty < 0 || !pw) goto error; if (empty) { isl_set_free(pw->p[i].set); FN(EL,free)(pw->p[i].FIELD); if (i != pw->n - 1) pw->p[i] = pw->p[pw->n - 1]; pw->n--; } } isl_set_free(context); return pw; error: FN(PW,free)(pw); isl_set_free(context); return NULL; } __isl_give PW *FN(PW,gist)(__isl_take PW *pw, __isl_take isl_set *context) { return FN(PW,gist_fn)(pw, context, &isl_set_gist, &isl_set_intersect); } __isl_give PW *FN(PW,gist_params)(__isl_take PW *pw, __isl_take isl_set *context) { return FN(PW,gist_fn)(pw, context, &isl_set_gist_params, &isl_set_intersect_params); } /* Coalesce the domains of "pw". * * Prior to the actual coalescing, first sort the pieces such that * pieces with the same function value expression are combined * into a single piece, the combined domain of which can then * be coalesced. */ __isl_give PW *FN(PW,coalesce)(__isl_take PW *pw) { int i; isl_size n; pw = FN(PW,sort_unique)(pw); n = FN(PW,n_piece)(pw); if (n < 0) return FN(PW,free)(pw); for (i = 0; i < n; ++i) { pw->p[i].set = isl_set_coalesce(pw->p[i].set); if (!pw->p[i].set) goto error; } return pw; error: FN(PW,free)(pw); return NULL; } isl_ctx *FN(PW,get_ctx)(__isl_keep PW *pw) { return pw ? isl_space_get_ctx(pw->dim) : NULL; } isl_bool FN(PW,involves_dims)(__isl_keep PW *pw, enum isl_dim_type type, unsigned first, unsigned n) { int i; enum isl_dim_type set_type; if (!pw) return isl_bool_error; if (pw->n == 0 || n == 0) return isl_bool_false; set_type = type == isl_dim_in ? isl_dim_set : type; for (i = 0; i < pw->n; ++i) { isl_bool involves = FN(EL,involves_dims)(pw->p[i].FIELD, type, first, n); if (involves < 0 || involves) return involves; involves = isl_set_involves_dims(pw->p[i].set, set_type, first, n); if (involves < 0 || involves) return involves; } return isl_bool_false; } __isl_give PW *FN(PW,set_dim_name)(__isl_take PW *pw, enum isl_dim_type type, unsigned pos, const char *s) { isl_space *space; space = FN(PW,get_space)(pw); space = isl_space_set_dim_name(space, type, pos, s); return FN(PW,reset_space)(pw, space); } __isl_give PW *FN(PW,drop_dims)(__isl_take PW *pw, enum isl_dim_type type, unsigned first, unsigned n) { int i; isl_size n_piece; enum isl_dim_type set_type; isl_space *space; n_piece = FN(PW,n_piece)(pw); if (n_piece < 0) return FN(PW,free)(pw); if (n == 0 && !isl_space_get_tuple_name(pw->dim, type)) return pw; set_type = type == isl_dim_in ? isl_dim_set : type; space = FN(PW,take_space)(pw); space = isl_space_drop_dims(space, type, first, n); pw = FN(PW,restore_space)(pw, space); for (i = 0; i < n_piece; ++i) { isl_set *domain; EL *el; el = FN(PW,take_base_at)(pw, i); el = FN(EL,drop_dims)(el, type, first, n); pw = FN(PW,restore_base_at)(pw, i, el); if (type == isl_dim_out) continue; domain = FN(PW,take_domain_at)(pw, i); domain = isl_set_drop(domain, set_type, first, n); pw = FN(PW,restore_domain_at)(pw, i, domain); } return pw; } /* This function is very similar to drop_dims. * The only difference is that the cells may still involve * the specified dimensions. They are removed using * isl_set_project_out instead of isl_set_drop. */ __isl_give PW *FN(PW,project_out)(__isl_take PW *pw, enum isl_dim_type type, unsigned first, unsigned n) { int i; isl_size n_piece; enum isl_dim_type set_type; isl_space *space; n_piece = FN(PW,n_piece)(pw); if (n_piece < 0) return FN(PW,free)(pw); if (n == 0 && !isl_space_get_tuple_name(pw->dim, type)) return pw; set_type = type == isl_dim_in ? isl_dim_set : type; space = FN(PW,take_space)(pw); space = isl_space_drop_dims(space, type, first, n); pw = FN(PW,restore_space)(pw, space); for (i = 0; i < n_piece; ++i) { isl_set *domain; EL *el; domain = FN(PW,take_domain_at)(pw, i); domain = isl_set_project_out(domain, set_type, first, n); pw = FN(PW,restore_domain_at)(pw, i, domain); el = FN(PW,take_base_at)(pw, i); el = FN(EL,drop_dims)(el, type, first, n); pw = FN(PW,restore_base_at)(pw, i, el); } return pw; } /* Project the domain of pw onto its parameter space. */ __isl_give PW *FN(PW,project_domain_on_params)(__isl_take PW *pw) { isl_space *space; isl_size n; n = FN(PW,dim)(pw, isl_dim_in); if (n < 0) return FN(PW,free)(pw); pw = FN(PW,project_out)(pw, isl_dim_in, 0, n); space = FN(PW,get_domain_space)(pw); space = isl_space_params(space); pw = FN(PW,reset_domain_space)(pw, space); return pw; } #undef TYPE #define TYPE PW #include "isl_drop_unused_params_templ.c" isl_size FN(PW,dim)(__isl_keep PW *pw, enum isl_dim_type type) { return isl_space_dim(FN(PW,peek_space)(pw), type); } __isl_give isl_space *FN(PW,get_domain_space)(__isl_keep PW *pw) { return pw ? isl_space_domain(isl_space_copy(pw->dim)) : NULL; } /* Return the position of the dimension of the given type and name * in "pw". * Return -1 if no such dimension can be found. */ int FN(PW,find_dim_by_name)(__isl_keep PW *pw, enum isl_dim_type type, const char *name) { if (!pw) return -1; return isl_space_find_dim_by_name(pw->dim, type, name); } /* Return the position of the dimension of the given type and identifier * in "pw". * Return -1 if no such dimension can be found. */ static int FN(PW,find_dim_by_id)(__isl_keep PW *pw, enum isl_dim_type type, __isl_keep isl_id *id) { isl_space *space; space = FN(PW,peek_space)(pw); return isl_space_find_dim_by_id(space, type, id); } /* Does the piecewise expression "pw" depend in any way * on the parameter with identifier "id"? */ isl_bool FN(PW,involves_param_id)(__isl_keep PW *pw, __isl_keep isl_id *id) { int pos; if (!pw || !id) return isl_bool_error; if (pw->n == 0) return isl_bool_false; pos = FN(PW,find_dim_by_id)(pw, isl_dim_param, id); if (pos < 0) return isl_bool_false; return FN(PW,involves_dims)(pw, isl_dim_param, pos, 1); } /* Reset the space of "pw". Since we don't know if the elements * represent the spaces themselves or their domains, we pass along * both when we call their reset_space_and_domain. */ static __isl_give PW *FN(PW,reset_space_and_domain)(__isl_take PW *pw, __isl_take isl_space *space, __isl_take isl_space *domain) { int i; isl_size n; n = FN(PW,n_piece)(pw); if (n < 0 || !space || !domain) goto error; for (i = 0; i < n; ++i) { isl_set *set; EL *el; set = FN(PW,take_domain_at)(pw, i); set = isl_set_reset_space(set, isl_space_copy(domain)); pw = FN(PW,restore_domain_at)(pw, i, set); el = FN(PW,take_base_at)(pw, i); el = FN(EL,reset_space_and_domain)(el, isl_space_copy(space), isl_space_copy(domain)); pw = FN(PW,restore_base_at)(pw, i, el); } isl_space_free(domain); pw = FN(PW,restore_space)(pw, space); return pw; error: isl_space_free(domain); isl_space_free(space); FN(PW,free)(pw); return NULL; } __isl_give PW *FN(PW,reset_domain_space)(__isl_take PW *pw, __isl_take isl_space *domain) { isl_space *space; space = isl_space_extend_domain_with_range(isl_space_copy(domain), FN(PW,get_space)(pw)); return FN(PW,reset_space_and_domain)(pw, space, domain); } __isl_give PW *FN(PW,reset_space)(__isl_take PW *pw, __isl_take isl_space *space) { isl_space *domain; domain = isl_space_domain(isl_space_copy(space)); return FN(PW,reset_space_and_domain)(pw, space, domain); } __isl_give PW *FN(PW,set_tuple_id)(__isl_take PW *pw, enum isl_dim_type type, __isl_take isl_id *id) { isl_space *space; pw = FN(PW,cow)(pw); if (!pw) goto error; space = FN(PW,get_space)(pw); space = isl_space_set_tuple_id(space, type, id); return FN(PW,reset_space)(pw, space); error: isl_id_free(id); return FN(PW,free)(pw); } /* Drop the id on the specified tuple. */ __isl_give PW *FN(PW,reset_tuple_id)(__isl_take PW *pw, enum isl_dim_type type) { isl_space *space; if (!pw) return NULL; if (!FN(PW,has_tuple_id)(pw, type)) return pw; pw = FN(PW,cow)(pw); if (!pw) return NULL; space = FN(PW,get_space)(pw); space = isl_space_reset_tuple_id(space, type); return FN(PW,reset_space)(pw, space); } __isl_give PW *FN(PW,set_dim_id)(__isl_take PW *pw, enum isl_dim_type type, unsigned pos, __isl_take isl_id *id) { isl_space *space; space = FN(PW,get_space)(pw); space = isl_space_set_dim_id(space, type, pos, id); return FN(PW,reset_space)(pw, space); } /* Reset the user pointer on all identifiers of parameters and tuples * of the space of "pw". */ __isl_give PW *FN(PW,reset_user)(__isl_take PW *pw) { isl_space *space; space = FN(PW,get_space)(pw); space = isl_space_reset_user(space); return FN(PW,reset_space)(pw, space); } isl_size FN(PW,n_piece)(__isl_keep PW *pw) { return pw ? pw->n : isl_size_error; } isl_stat FN(PW,foreach_piece)(__isl_keep PW *pw, isl_stat (*fn)(__isl_take isl_set *set, __isl_take EL *el, void *user), void *user) { int i; if (!pw) return isl_stat_error; for (i = 0; i < pw->n; ++i) if (fn(isl_set_copy(pw->p[i].set), FN(EL,copy)(pw->p[i].FIELD), user) < 0) return isl_stat_error; return isl_stat_ok; } /* Does "test" succeed on every cell of "pw"? */ isl_bool FN(PW,every_piece)(__isl_keep PW *pw, isl_bool (*test)(__isl_keep isl_set *set, __isl_keep EL *el, void *user), void *user) { int i; if (!pw) return isl_bool_error; for (i = 0; i < pw->n; ++i) { isl_bool r; r = test(pw->p[i].set, pw->p[i].FIELD, user); if (r < 0 || !r) return r; } return isl_bool_true; } /* Is "pw" defined over a single universe domain? * * If the default value of this piecewise type is zero, * then a "pw" with a zero number of cells is also accepted * as it represents the default zero value. */ isl_bool FN(FN(PW,isa),BASE)(__isl_keep PW *pw) { isl_size n; n = FN(PW,n_piece)(pw); if (n < 0) return isl_bool_error; if (DEFAULT_IS_ZERO && n == 0) return isl_bool_true; if (n != 1) return isl_bool_false; return isl_set_plain_is_universe(FN(PW,peek_domain_at)(pw, 0)); } /* Return a zero base expression in the same space (and of the same type) * as "pw". */ static __isl_give EL *FN(EL,zero_like_type)(__isl_take PW *pw OPT_TYPE_PARAM) { isl_space *space; space = FN(PW,get_space)(pw); FN(PW,free)(pw); return FN(EL,zero_in_space)(space OPT_TYPE_ARG(NO_LOC)); } #ifndef HAS_TYPE /* Return a zero base expression in the same space as "pw". */ static __isl_give EL *FN(EL,zero_like)(__isl_take PW *pw) { return FN(EL,zero_like_type)(pw); } #else /* Return a zero base expression in the same space and of the same type * as "pw". * * Pass along the type as an explicit argument for uniform handling * in isl_*_zero_like_type. */ static __isl_give EL *FN(EL,zero_like)(__isl_take PW *pw) { enum isl_fold type; type = FN(PW,get_type)(pw); if (type < 0) goto error; return FN(EL,zero_like_type)(pw, type); error: FN(PW,free)(pw); return NULL; } #endif /* Given that "pw" is defined over a single universe domain, * return the base expression associated to this domain. * * If the number of cells is zero, then "pw" is of a piecewise type * with a default zero value and effectively represents zero. * In this case, create a zero base expression in the same space * (and with the same type). * Otherwise, simply extract the associated base expression. */ __isl_give EL *FN(FN(PW,as),BASE)(__isl_take PW *pw) { isl_bool is_total; isl_size n; EL *el; is_total = FN(FN(PW,isa),BASE)(pw); if (is_total < 0) goto error; if (!is_total) isl_die(FN(PW,get_ctx)(pw), isl_error_invalid, "expecting single total function", goto error); n = FN(PW,n_piece)(pw); if (n < 0) goto error; if (n == 0) return FN(EL,zero_like)(pw); el = FN(PW,take_base_at)(pw, 0); FN(PW,free)(pw); return el; error: FN(PW,free)(pw); return NULL; } #ifdef HAS_TYPE /* Negate the type of "pw". */ static __isl_give PW *FN(PW,negate_type)(__isl_take PW *pw) { pw = FN(PW,cow)(pw); if (!pw) return NULL; pw->type = isl_fold_type_negate(pw->type); return pw; } #else /* Negate the type of "pw". * Since "pw" does not have a type, do nothing. */ static __isl_give PW *FN(PW,negate_type)(__isl_take PW *pw) { return pw; } #endif /* Multiply the pieces of "pw" by "v" and return the result. */ __isl_give PW *FN(PW,scale_val)(__isl_take PW *pw, __isl_take isl_val *v) { int i; isl_size n; if (!pw || !v) goto error; if (isl_val_is_one(v)) { isl_val_free(v); return pw; } if (pw && DEFAULT_IS_ZERO && isl_val_is_zero(v)) { PW *zero; isl_space *space = FN(PW,get_space)(pw); zero = FN(PW,ZERO)(space OPT_TYPE_ARG(pw->)); FN(PW,free)(pw); isl_val_free(v); return zero; } if (isl_val_is_neg(v)) pw = FN(PW,negate_type)(pw); n = FN(PW,n_piece)(pw); if (n < 0) goto error; for (i = 0; i < n; ++i) { EL *el; el = FN(PW,take_base_at)(pw, i); el = FN(EL,scale_val)(el, isl_val_copy(v)); pw = FN(PW,restore_base_at)(pw, i, el); } isl_val_free(v); return pw; error: isl_val_free(v); FN(PW,free)(pw); return NULL; } /* Divide the pieces of "pw" by "v" and return the result. */ __isl_give PW *FN(PW,scale_down_val)(__isl_take PW *pw, __isl_take isl_val *v) { int i; isl_size n; if (!pw || !v) goto error; if (isl_val_is_one(v)) { isl_val_free(v); return pw; } if (!isl_val_is_rat(v)) isl_die(isl_val_get_ctx(v), isl_error_invalid, "expecting rational factor", goto error); if (isl_val_is_zero(v)) isl_die(isl_val_get_ctx(v), isl_error_invalid, "cannot scale down by zero", goto error); if (isl_val_is_neg(v)) pw = FN(PW,negate_type)(pw); n = FN(PW,n_piece)(pw); if (n < 0) goto error; for (i = 0; i < n; ++i) { EL *el; el = FN(PW,take_base_at)(pw, i); el = FN(EL,scale_down_val)(el, isl_val_copy(v)); pw = FN(PW,restore_base_at)(pw, i, el); } isl_val_free(v); return pw; error: isl_val_free(v); FN(PW,free)(pw); return NULL; } /* Apply some normalization to "pw". * In particular, sort the pieces according to their function value * expressions, combining pairs of adjacent pieces with * the same such expression, and then normalize the domains of the pieces. * * We normalize in place, but if anything goes wrong we need * to return NULL, so we need to make sure we don't change the * meaning of any possible other copies of "pw". */ static __isl_give PW *FN(PW,normalize)(__isl_take PW *pw) { int i; isl_set *set; pw = FN(PW,sort_unique)(pw); if (!pw) return NULL; for (i = 0; i < pw->n; ++i) { set = isl_set_normalize(isl_set_copy(pw->p[i].set)); if (!set) return FN(PW,free)(pw); isl_set_free(pw->p[i].set); pw->p[i].set = set; } return pw; } /* Is pw1 obviously equal to pw2? * That is, do they have obviously identical cells and obviously identical * elements on each cell? * * If "pw1" or "pw2" contain any NaNs, then they are considered * not to be the same. A NaN is not equal to anything, not even * to another NaN. */ isl_bool FN(PW,plain_is_equal)(__isl_keep PW *pw1, __isl_keep PW *pw2) { int i; isl_bool equal, has_nan; if (!pw1 || !pw2) return isl_bool_error; has_nan = FN(PW,involves_nan)(pw1); if (has_nan >= 0 && !has_nan) has_nan = FN(PW,involves_nan)(pw2); if (has_nan < 0 || has_nan) return isl_bool_not(has_nan); if (pw1 == pw2) return isl_bool_true; equal = FN(PW,has_equal_space)(pw1, pw2); if (equal < 0 || !equal) return equal; pw1 = FN(PW,copy)(pw1); pw2 = FN(PW,copy)(pw2); pw1 = FN(PW,normalize)(pw1); pw2 = FN(PW,normalize)(pw2); if (!pw1 || !pw2) goto error; equal = isl_bool_ok(pw1->n == pw2->n); for (i = 0; equal && i < pw1->n; ++i) { equal = isl_set_plain_is_equal(pw1->p[i].set, pw2->p[i].set); if (equal < 0) goto error; if (!equal) break; equal = FN(EL,plain_is_equal)(pw1->p[i].FIELD, pw2->p[i].FIELD); if (equal < 0) goto error; } FN(PW,free)(pw1); FN(PW,free)(pw2); return equal; error: FN(PW,free)(pw1); FN(PW,free)(pw2); return isl_bool_error; } /* Does "pw" involve any NaNs? */ isl_bool FN(PW,involves_nan)(__isl_keep PW *pw) { int i; if (!pw) return isl_bool_error; if (pw->n == 0) return isl_bool_false; for (i = 0; i < pw->n; ++i) { isl_bool has_nan = FN(EL,involves_nan)(pw->p[i].FIELD); if (has_nan < 0 || has_nan) return has_nan; } return isl_bool_false; }