/* $Id$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* R E G I S T E R A L L O C A T I O N * * R A _ I T E M S . C */ #include #include #include #include #include "../share/types.h" #include "../share/debug.h" #include "../share/def.h" #include "../share/global.h" #include "../share/lset.h" #include "../share/utils.h" #include "../share/alloc.h" #include "ra.h" #include "ra_aux.h" #include "ra_items.h" #include "itemtab.h" /* Maps EM mnemonics onto item types, e.g. op_lol -> LOCALVAR, op_ldc->DCONST, * generated from em_mmen.h and itemtab.src files. */ #define SMALL_CONSTANT(c) (c >= 0 && c <= 8) /* prevent small constants from being put in a register */ void clean_tab(items) item_p items[]; { int t; for (t = 0; t < NRITEMTYPES;t++) { items[t] = (item_p) 0; } } short item_type(l) line_p l; { int instr = INSTR(l); int t; if (instr < sp_fmnem || instr > sp_lmnem) return NO_ITEM; t = itemtab[instr - sp_fmnem].id_type; if (t == CONST && SMALL_CONSTANT(off_set(l))) return NO_ITEM; return t; } bool is_item(l) line_p l; { return item_type(l) != NO_ITEM; } item_p item_of(off,items) offset off; item_p items[]; { register item_p x; for (x = items[LOCALVAR]; x != (item_p) 0; x = x->it_next) { if (off == x->i_t.it_off) { if (!x->it_desirable) break; /* don't put this item in reg */ return x; } } return (item_p) 0; } void fill_item(item,l) item_p item; line_p l; { item->it_type = item_type(l); item->it_desirable = TRUE; switch(item->it_type) { case GLOBL_ADDR: item->i_t.it_obj = OBJ(l); break; case PROC_ADDR: item->i_t.it_proc = PROC(l); break; default: item->i_t.it_off = off_set(l); } } STATIC bool desirable(l) line_p l; { /* See if it is really desirable to put the item of line l * in a register. We do not put an item in a register if it * is used as 'address of array descriptor' of an array * instruction. */ if (l->l_next != (line_p) 0) { switch(INSTR(l->l_next)) { case op_aar: case op_lar: case op_sar: return FALSE; } } return TRUE; } STATIC int cmp_items(a,b) item_p a,b; { /* This routine defines the <, = and > relations between items, * used to sort them for fast lookup. */ offset n1,n2; switch(a->it_type) { case GLOBL_ADDR: assert(b->it_type == GLOBL_ADDR); n1 = (offset) a->i_t.it_obj->o_id; n2 = (offset) b->i_t.it_obj->o_id; break; case PROC_ADDR: assert(b->it_type == PROC_ADDR); n1 = (offset) a->i_t.it_proc->p_id; n2 = (offset) b->i_t.it_proc->p_id; break; default: n1 = a->i_t.it_off; n2 = b->i_t.it_off; } return (n1 == n2 ? 0 : (n1 > n2 ? 1 : -1)); } bool same_item(a,b) item_p a,b; { return cmp_items(a,b) == 0; } STATIC bool lt_item(a,b) item_p a,b; { return cmp_items(a,b) == -1; } /* build_itemlist() * * Build a list of all items used in the current procedure. An item * is anything that can be put in a register (a local variable, a constant, * the address of a local or global variable). * For each type of item we use a sorted list containing all items of * that type found so far. * A local variable is only considered to be an item if there is a * register message for it (indicating it is never accessed indirectly). * For each item, we keep track of all places where it is used * (either fetched or stored into). The usage of a local variable is also * considered to be a usage of its address. */ static item_p items[NRITEMTYPES]; /* items[i] points to the list of type i */ STATIC short reg_type(item) item_p item; { /* See which type of register the item should best be assigned to */ switch(item->it_type) { case LOCALVAR: return regv_type(item->i_t.it_off); /* use type mentioned in reg. message for local */ case LOCAL_ADDR: case GLOBL_ADDR: case PROC_ADDR: return reg_pointer; case CONST: case DCONST: return reg_any; default: assert(FALSE); } /* NOTREACHED */ } STATIC short item_size(item) item_p item; { /* Determine the size of the item (in bytes) */ switch(item->it_type) { case LOCALVAR: return regv_size(item->i_t.it_off); /* use size mentioned in reg. message for local */ case LOCAL_ADDR: case GLOBL_ADDR: case PROC_ADDR: return ps; /* pointer size */ case CONST: return ws; /* word size */ case DCONST: return 2 * ws; /* 2 * word size */ default: assert(FALSE); } /* NOTREACHED */ } STATIC void init_item(a,b) item_p a,b; { a->it_type = b->it_type; switch(a->it_type) { case GLOBL_ADDR: a->i_t.it_obj = b->i_t.it_obj; break; case PROC_ADDR: a->i_t.it_proc = b->i_t.it_proc; break; default: a->i_t.it_off = b->i_t.it_off; } a->it_usage = Lempty_set(); a->it_regtype = reg_type(b); a->it_size = item_size(b); a->it_desirable = b->it_desirable; } STATIC void add_item(item,t,items) item_p item; time_p t; item_p items[]; { /* See if there was already a list element for item. In any * case record the fact that item is used at 't'. */ register item_p x, *q; q = &items[item->it_type]; /* each type has its own list */ for (x = *q; x != (item_p) 0; x = *q) { if (same_item(x,item)) { /* found */ if (!item->it_desirable) { x->it_desirable = FALSE; } Ladd(t,&x->it_usage); return; /* done */ } if (lt_item(item,x)) break; q = &x->it_next; } /* not found, allocate new item; q points to it_next field of * the item after which the new item should be put. */ x = newitem(); x->it_next = *q; *q = x; init_item(x,item); Ladd(t,&x->it_usage); } STATIC void add_usage(l,b,items) line_p l; bblock_p b; item_p items[]; { /* An item is used at line l. Add it to the list of items. * A local variable is only considered to be an item, if * there is a register message for it; else its address * is also considered to be an item. */ struct item thisitem; fill_item(&thisitem,l); /* fill in some fields */ if (!desirable(l)) { thisitem.it_desirable = FALSE; /* don't put item in reg. */ } if (thisitem.it_type == LOCALVAR && !is_regvar(thisitem.i_t.it_off)) { /* Use address of local instead of local itself */ thisitem.it_type = LOCAL_ADDR; thisitem.it_regtype = reg_pointer; } add_item(&thisitem,cons_time(l,b),items); } void build_itemlist(p,items,nrinstr_out) proc_p p; item_p items[]; int *nrinstr_out; { /* Make a list of all items used in procedure p. * An item is anything that can be put in a register, * such as a local variable, a constant etc. * As a side effect, determine the number of instructions of p. */ register line_p l; register bblock_p b; register int cnt= 0; clean_tab(items); for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) { for (l = b->b_start; l != (line_p) 0; l = l->l_next) { if (is_item(l)) { add_usage(l,b,items); } cnt++; } } *nrinstr_out = cnt; }