/* $Id$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* I N L I N E S U B S T I T U T I O N * * I L 1 _ A N A L . C */ #include #include #include #include "../share/types.h" #include "il.h" #include "../share/debug.h" #include "../share/alloc.h" #include "../share/global.h" #include "../share/lset.h" #include "../share/utils.h" #include "il1_aux.h" #include "il1_formal.h" #include "il1_cal.h" #include "il1_anal.h" #include "il_aux.h" #include "../share/put.h" #define ENVIRON(p) (p->p_flags1 & (byte) PF_ENVIRON) #define RETURN_BLOCK(b) (Lnrelems(b->b_succ) == 0) #define LAST_BLOCK(b) (b->b_next == (bblock_p) 0) /* Daisy chain recursion not yet accounted for: */ #define RECURSIVE(p) (Cis_elem(p->p_id,p->p_calling)) /* #define CALLS_UNKNOWN(p) (p->p_flags1 & (byte) PF_CALUNKNOWN) */ #define CALLS_UNKNOWN(p) (FALSE) apriori(proctab) proc_p proctab; { /* For every procedure, see if we can determine * from the information provided by the previous * phases of the optimizer that it cannot or should not * be expanded in line. This will reduce the length * of the call list. */ register proc_p p; for (p = proctab; p != (proc_p) 0; p = p->p_next) { if (!BODY_KNOWN(p) || ENVIRON(p) || RECURSIVE(p) || PARAMS_UNKNOWN(p) || MANY_LOCALS(p) || IS_ENTERED_WITH_GTO(p)) { UNSUITABLE(p); #ifdef VERBOSE if (BODY_KNOWN(p)) { if (ENVIRON(p)) Senv++; if (RECURSIVE(p)) Srecursive++; if (MANY_LOCALS(p)) Slocals++; } #endif } } } STATIC check_labels(p,arglist) proc_p p; arg_p arglist; { /* Check if any of the arguments contains an instruction * label; if so, make p unsuitable. */ arg_p arg; for (arg = arglist; arg != (arg_p) 0; arg = arg->a_next) { if (arg->a_type == ARGINSTRLAB) { UNSUITABLE(p); #ifdef VERBOSE Sinstrlab++; #endif break; } } } STATIC anal_instr(p,b,cf) proc_p p; bblock_p b; FILE *cf; { /* Analyze the instructions of block b * within procedure p. * See which parameters are used, changed * or have their address taken. Recognize * the actual parameter expressions of * the CAL instructions. */ register line_p l; for (l = b->b_start; l != (line_p) 0; l = l->l_next) { switch(INSTR(l)) { case op_cal: anal_cal(p,l,b,cf); break; case op_stl: case op_inl: case op_del: case op_zrl: formal(p,b,off_set(l),SINGLE,CHANGE); /* see if the local is a parameter. * If so, it is a one-word parameter * that is stored into. */ break; case op_sdl: formal(p,b,off_set(l),DOUBLE,CHANGE); break; case op_lol: formal(p,b,off_set(l),SINGLE,USE); break; case op_ldl: formal(p,b,off_set(l),DOUBLE,USE); break; case op_sil: case op_lil: formal(p,b,off_set(l),POINTER,USE); break; case op_lal: formal(p,b,off_set(l),UNKNOWN,ADDRESS); break; case ps_rom: case ps_con: case ps_bss: case ps_hol: check_labels(p,ARG(l)); break; case op_nop: /* volatile */ UNSUITABLE(p); break; } } } anal_proc(p,cf,ccf) proc_p p; FILE *cf,*ccf; { /* Analyze a procedure; use information * stored in its basic blocks or in * its instructions. */ register bblock_p b; bool fallthrough = TRUE; cchead = (calcnt_p) 0; for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) { if (RETURN_BLOCK(b) && !LAST_BLOCK(b)) { fallthrough = FALSE; /* p contains a RET instruction somewhere * in the middle of its code. */ } anal_instr(p,b,cf); /* analyze instructions */ } if (fallthrough) { p->p_flags2 |= PF_FALLTHROUGH; } rem_indir_acc(p); /* don't expand formal that may be accessed indirectly */ p->P_CCADDR = putcc(cchead,ccf); /* write calcnt info and remember disk address */ remcc(cchead); }