224 lines
5.7 KiB
C
224 lines
5.7 KiB
C
/* $Id$ */
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/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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#include <stdio.h>
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#include <em_mnem.h>
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#include <em_spec.h>
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#include "../share/types.h"
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#include "../share/debug.h"
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#include "../share/global.h"
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#include "../share/aux.h"
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#include "../share/cset.h"
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#include "../share/lset.h"
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#include "cs.h"
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#include "cs_aux.h"
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#include "cs_debug.h"
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#include "cs_avail.h"
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#include "cs_partit.h"
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STATIC cset addr_modes;
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STATIC cset cheaps;
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STATIC cset forbidden;
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STATIC cset sli_counts;
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STATIC short LX_threshold;
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STATIC short AR_limit;
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STATIC get_instrs(f, s_p)
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FILE *f;
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cset *s_p;
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{
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/* Read a set of integers from inputfile f into *s_p.
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* Such a set must be delimited by a negative number.
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*/
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int instr;
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fscanf(f, "%d", &instr);
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while (instr >= 0) {
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Cadd((Celem_t) instr, s_p);
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fscanf(f, "%d", &instr);
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}
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}
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STATIC choose_cset(f, s_p, max)
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FILE *f;
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cset *s_p;
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{
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/* Read two compact sets of integers from inputfile f.
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* Choose the first if we optimize with respect to time,
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* the second if we optimize with respect to space, as
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* indicated by time_space_ratio.
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*/
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cset cs1, cs2; /* Two dummy sets. */
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*s_p = Cempty_set((short) max);
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cs1 = Cempty_set((short) max);
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get_instrs(f, &cs1);
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cs2 = Cempty_set((short) max);
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get_instrs(f, &cs2);
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Ccopy_set(time_space_ratio >= 50 ? cs1 : cs2, s_p);
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Cdeleteset(cs1); Cdeleteset(cs2);
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}
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cs_machinit(f)
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FILE *f;
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{
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char s[100];
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int time, space;
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/* Find piece that is relevant for this phase. */
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do {
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while (getc(f) != '\n');
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fscanf(f, "%s", s);
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} while (strcmp(s, "%%CS"));
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/* Choose a set of instructions which must only be eliminated
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* if they are at the root of another expression.
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*/
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choose_cset(f, &addr_modes, sp_lmnem);
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/* Choose a set of cheap instructions; i.e. instructions that
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* are cheaper than a move to save the result of such an
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* instruction.
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*/
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choose_cset(f, &cheaps, sp_lmnem);
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/* Read how many lexical levels back an LXL/LXA instruction
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* must at least look before it will be eliminated.
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*/
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fscanf(f, "%d %d", &time, &space);
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LX_threshold = time_space_ratio >= 50 ? time : space;
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/* Read what the size of an array-element may be,
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* before we think that it is to big to replace
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* a LAR/SAR of it by AAR LOI/STI <size>.
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*/
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fscanf(f, "%d", &space);
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AR_limit = space;
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/* Read for what counts we must not eliminate an SLI instruction
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* when it is part of an array-index computation.
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*/
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choose_cset(f, &sli_counts, 8 * ws);
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/* Read a set of instructions which we do not want to eliminate.
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* Note: only instructions need be given that may in principle
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* be eliminated, but for which better code can be generated
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* when they stay, and with which is not dealt in the common
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* decision routines.
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*/
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choose_cset(f, &forbidden, sp_lmnem);
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}
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STATIC bool sli_no_eliminate(lnp)
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line_p lnp;
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{
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/* Return whether the SLI-instruction in lnp is part of
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* an array-index computation, and should not be eliminated.
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*/
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offset cst;
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return lnp->l_prev != (line_p) 0 && INSTR(lnp->l_prev) == op_loc &&
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lnp->l_next != (line_p) 0 && INSTR(lnp->l_next) == op_ads &&
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((cst = off_set(lnp->l_prev)), cst == (Celem_t) cst) &&
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Cis_elem((Celem_t) cst, sli_counts)
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;
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}
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STATIC bool gains(avp)
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avail_p avp;
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{
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/* Return whether we can gain something, when we eliminate
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* an expression such as in avp. We just glue together some
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* heuristics with some user-supplied stuff.
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*/
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if (Cis_elem(avp->av_instr & BMASK, forbidden))
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return FALSE;
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if (avp->av_instr == (byte) op_lxa || avp->av_instr == (byte) op_lxl)
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return off_set(avp->av_found) >= LX_threshold;
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if (avp->av_instr == (byte) op_sli || avp->av_instr == (byte) op_slu)
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return ! sli_no_eliminate(avp->av_found);
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if (avp->av_instr == (byte) op_ads &&
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avp->av_found->l_prev &&
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( INSTR(avp->av_found->l_prev) == op_sli ||
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INSTR(avp->av_found->l_prev) == op_slu))
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return ! sli_no_eliminate(avp->av_found->l_prev);
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if (Cis_elem(avp->av_instr & BMASK, addr_modes))
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return instrgroup(avp->av_found->l_prev) != SIMPLE_LOAD;
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if (Cis_elem(avp->av_instr & BMASK, cheaps))
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return avp->av_saveloc != (entity_p) 0;
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return TRUE;
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}
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STATIC bool okay_lines(avp, ocp)
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avail_p avp;
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occur_p ocp;
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{
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register line_p lnp, next;
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offset sz;
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for (lnp = ocp->oc_lfirst; lnp != (line_p) 0; lnp = next) {
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next = lnp != ocp->oc_llast ? lnp->l_next : (line_p) 0;
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if (INSTR(lnp) < sp_fmnem || INSTR(lnp) > sp_lmnem)
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return FALSE;
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if (!stack_group(INSTR(lnp))) {
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/* Check for SAR-instruction. */
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if (INSTR(lnp) != op_sar || next != (line_p) 0)
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return FALSE;
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}
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}
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/* All lines in this occurrence can in principle be eliminated;
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* no stores, messages, calls etc.
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* We now check whether it is desirable to treat a LAR or a SAR
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* as an AAR LOI/STI. This depends on the size of the array-elements.
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*/
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if (INSTR(ocp->oc_llast) == op_lar || INSTR(ocp->oc_llast) == op_sar) {
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if (avp->av_instr == (byte) op_aar && time_space_ratio < 50) {
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return (sz = array_elemsize(avp->av_othird)) <= AR_limit &&
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sz != UNKNOWN_SIZE;
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}
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}
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return TRUE;
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}
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bool desirable(avp)
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avail_p avp;
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{
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register Lindex i, next;
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if (!gains(avp)) {
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OUTTRACE("no gain", 0);
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SHOWAVAIL(avp);
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return FALSE;
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}
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/* Walk through the occurrences to see whether it is okay to
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* eliminate them. If not, remove them from the set.
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*/
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for (i = Lfirst(avp->av_occurs); i != (Lindex) 0; i = next) {
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next = Lnext(i, avp->av_occurs);
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if (!okay_lines(avp, occ_elem(i))) {
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OUTTRACE("may not eliminate", 0);
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# ifdef TRACE
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SHOWOCCUR(occ_elem(i));
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# endif
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oldoccur(occ_elem(i));
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Lremove(Lelem(i), &avp->av_occurs);
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}
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}
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return Lnrelems(avp->av_occurs) > 0;
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}
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