/* $Header$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* S T R E N G T H R E D U C T I O N * * S R _ A U X . C * */ #include #include #include "../share/types.h" #include "sr.h" #include "../share/debug.h" #include "../share/global.h" #include "../share/lset.h" #include "../share/aux.h" #include "sr_aux.h" #include "sr_xform.h" #define INSIDE_LOOP(b,lp) Lis_elem(b,lp->LP_BLOCKS) bool is_loopconst(lnp,vars) line_p lnp; lset vars; { Lindex i; assert(TYPE(lnp) == OPSHORT || TYPE(lnp) == OPOFFSET); if (!is_regvar(off_set(lnp))) return FALSE; for (i = Lfirst(vars); i != (Lindex) 0; i = Lnext(i,vars)) { if (same_local(Lelem(i),lnp)) { return FALSE; /* variable was changed */ } } return TRUE; } bool is_caddress(lnp,vars) line_p lnp; lset vars; /* variables changed in loop */ { /* See if lnp is a single instruction (i.e. without arguments) * that pushes a loop-invariant entity of size pointer-size (ps) * on the stack. */ if (lnp == (line_p) 0) return FALSE; switch(INSTR(lnp)) { case op_lae: case op_lal: return TRUE; case op_lol: return ps == ws && is_loopconst(lnp,vars); case op_ldl: return ps == 2*ws && is_loopconst(lnp,vars); default: return FALSE; } /* NOTREACHED */ } STATIC arg_p find_arg(n,list) int n; arg_p list; { /* Find the n-th element of the list */ while (--n) { if (list == (arg_p) 0) break; list = list->a_next; } return list; } int elemsize(lnp) line_p lnp; { /* lnp is an instruction that loads the address of an array * descriptor. Find the size of the elements of the array. * If this size cannot be determined (e.g. the descriptor may * not be in a rom) then return UNKNOWN_SIZE. */ dblock_p d; arg_p v; assert (lnp != (line_p) 0); if (INSTR(lnp) == op_lae) { d = OBJ(lnp)->o_dblock; /* datablock */ if (d->d_pseudo == DROM && (v = find_arg(3,d->d_values)) != (arg_p) 0 && v->a_type == ARGOFF) { return (int) v->a_a.a_offset; } } return UNKNOWN_SIZE; } concatenate(list1,list2) line_p list1,list2; { /* Append list2 to the end of list1. list1 may not be empty. */ register line_p l; assert(list1 != (line_p) 0); for (l =list1; l->l_next != (line_p) 0; l = l->l_next); l->l_next = list2; }