#include "mcg.h" static PMAPOF(struct vreg, struct vreg) phimap; static void make_phimap(void) { int i, j; phimap.count = 0; for (i=0; iphis.count; j++) { struct vreg* vreg = bb->phis.item[j].left; struct phi* phi = bb->phis.item[j].right; struct vreg* prevvreg = phi->ir->result; pmap_add(&phimap, vreg, prevvreg); } } } static void recursively_associate_group(struct phicongruence* c, struct vreg* vreg) { int i; vreg->congruence = c; array_appendu(&c->vregs, vreg); tracef('V', "V: %%%d is a member of congruence group %d\n", vreg->id, c->id); if (vreg->defined) { struct constraint* constraint = pmap_findleft(&vreg->defined->constraints, vreg); if (c->type == 0) c->type = vreg->type; assert(c->type == vreg->type); array_appendu(&c->definitions, vreg->defined); } for (;;) { struct vreg* child = pmap_findleft(&phimap, vreg); if (!child) break; pmap_remove(&phimap, vreg, child); recursively_associate_group(c, child); } for (;;) { struct vreg* child = pmap_findright(&phimap, vreg); if (!child) break; pmap_remove(&phimap, child, vreg); recursively_associate_group(c, child); } } static void associate_groups(void) { static int number = 0; while (phimap.count > 0) { struct phicongruence* c = calloc(1, sizeof(*c)); c->id = number++; recursively_associate_group(c, phimap.item[0].left); } } void pass_find_phi_congruence_groups(void) { make_phimap(); associate_groups(); } /* vim: set sw=4 ts=4 expandtab : */