259 lines
5.4 KiB
Plaintext
259 lines
5.4 KiB
Plaintext
/* C A S E S T A T E M E N T C O D E G E N E R A T I O N */
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#include "parameters.h"
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#include "debug.h"
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#include <alloc.h>
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#include <assert.h>
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#include <em.h>
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#include "LLlex.h"
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#include "Lpars.h"
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#include "chk_expr.h"
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#include "main.h"
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#include "node.h"
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#include "type.h"
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struct case_hdr {
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struct case_hdr *ch_next; /* in the free list */
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int ch_nrofentries; /* number of cases */
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struct type *ch_type; /* type of case expression */
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arith ch_lowerbd; /* lowest case label */
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arith ch_upperbd; /* highest case label */
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struct case_entry *ch_entries; /* the cases */
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};
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/* ALLOCDEF "case_hdr" 5 */
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struct case_entry {
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struct case_entry *ce_next; /* next in list */
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arith ce_value; /* value of case label */
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label ce_label; /* generated label */
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};
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/* ALLOCDEF "case_entry" 10 */
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/* The constant DENSITY determines when CSA and when CSB instructions
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are generated. Reasonable values are: 2, 3, 4.
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On machines that have lots of address space and memory, higher values
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might also be reasonable. On these machines the density of jump tables
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may be lower.
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*/
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#define compact(nr, low, up) (nr != 0 && (up - low) / nr <= DENSITY)
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void
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CaseExpr(nd)
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struct node *nd;
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{
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/* Check the expression and generate code for it
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*/
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register struct node *expp = nd->nd_left;
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if( !ChkExpression(expp) ) return;
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MarkUsed(expp);
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if( !(expp->nd_type->tp_fund & T_ORDINAL) ) {
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node_error(expp, "case-expression must be ordinal");
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return;
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}
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if( !err_occurred ) {
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CodePExpr(expp);
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C_bra(nd->nd_lab);
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}
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}
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void
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CaseEnd(nd, exit_label)
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struct node *nd;
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label exit_label;
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{
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/* Stack a new case header and fill in the necessary fields.
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*/
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register struct case_hdr *ch = new_case_hdr();
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register struct node *right;
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assert(nd->nd_class == Link && nd->nd_symb == CASE);
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ch->ch_type = nd->nd_left->nd_type;
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right = nd->nd_right;
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/* Now, create case label list
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*/
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while( right ) {
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assert(right->nd_class == Link && right->nd_symb == ':');
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if( !AddCases(ch, right->nd_left, right->nd_lab) ) {
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FreeCh(ch);
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return;
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}
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right = right->nd_right;
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}
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if( !err_occurred )
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CaseCode(nd->nd_lab, ch, exit_label);
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FreeCh(ch);
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FreeNode(nd);
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}
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FreeCh(ch)
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register struct case_hdr *ch;
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{
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/* free the allocated case structure
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*/
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register struct case_entry *ce;
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ce = ch->ch_entries;
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while( ce ) {
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struct case_entry *tmp = ce->ce_next;
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free_case_entry(ce);
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ce = tmp;
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}
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free_case_hdr(ch);
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}
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AddCases(ch, nd, CaseLabel)
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register struct case_hdr *ch;
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register struct node *nd;
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label CaseLabel;
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{
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while( nd ) {
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if( !AddOneCase(ch, nd, CaseLabel) )
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return 0;
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nd = nd->nd_next;
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}
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return 1;
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}
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AddOneCase(ch, nd, lbl)
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register struct case_hdr *ch;
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register struct node *nd;
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label lbl;
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{
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register struct case_entry *ce = new_case_entry();
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register struct case_entry *c1 = ch->ch_entries, *c2 = 0;
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ce->ce_value = nd->nd_INT;
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ce->ce_label = lbl;
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if( !TstCompat(ch->ch_type, nd->nd_type) ) {
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node_error(nd, "case-statement: type incompatibility in case");
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free_case_entry(ce);
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return 0;
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}
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if( bounded(ch->ch_type) ) {
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arith lo, hi;
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getbounds(ch->ch_type, &lo, &hi);
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if( ce->ce_value < lo || ce->ce_value > hi )
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warning("case-statement: constant out of bounds");
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}
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if( !ch->ch_entries ) {
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/* first case entry
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*/
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ce->ce_next = (struct case_entry *) 0;
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ch->ch_entries = ce;
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ch->ch_lowerbd = ch->ch_upperbd = ce->ce_value;
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ch->ch_nrofentries = 1;
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}
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else {
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/* second etc. case entry
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find the proper place to put ce into the list
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*/
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if( ce->ce_value < ch->ch_lowerbd )
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ch->ch_lowerbd = ce->ce_value;
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else if( ce->ce_value > ch->ch_upperbd )
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ch->ch_upperbd = ce->ce_value;
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while( c1 && c1->ce_value < ce->ce_value ) {
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c2 = c1;
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c1 = c1->ce_next;
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}
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/* At this point three cases are possible:
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1: c1 != 0 && c2 != 0:
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insert ce somewhere in the middle
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2: c1 != 0 && c2 == 0:
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insert ce right after the head
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3: c1 == 0 && c2 != 0:
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append ce to last element
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The case c1 == 0 && c2 == 0 cannot occur, since
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the list is guaranteed not to be empty.
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*/
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if( c1 ) {
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if( c1->ce_value == ce->ce_value ) {
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node_error(nd,
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"case-statement: multiple case entry");
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free_case_entry(ce);
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return 0;
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}
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if( c2 ) {
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ce->ce_next = c2->ce_next;
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c2->ce_next = ce;
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}
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else {
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ce->ce_next = ch->ch_entries;
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ch->ch_entries = ce;
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}
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}
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else {
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assert(c2);
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ce->ce_next = (struct case_entry *) 0;
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c2->ce_next = ce;
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}
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(ch->ch_nrofentries)++;
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}
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return 1;
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}
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CaseCode(lbl, ch, exit_label)
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label lbl;
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struct case_hdr *ch;
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label exit_label;
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{
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label CaseDescrLab = ++data_label; /* rom must have a label */
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register struct case_entry *ce;
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register arith val;
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C_df_dlb(CaseDescrLab);
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C_rom_icon("0", pointer_size);
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if( compact(ch->ch_nrofentries, ch->ch_lowerbd, ch->ch_upperbd) ) {
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/* CSA */
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C_rom_cst(ch->ch_lowerbd);
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C_rom_cst(ch->ch_upperbd - ch->ch_lowerbd);
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ce = ch->ch_entries;
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for( val = ch->ch_lowerbd; val <= ch->ch_upperbd; val++ ) {
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assert(ce);
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if( val == ce->ce_value ) {
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C_rom_ilb(ce->ce_label);
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ce = ce->ce_next;
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}
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else
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C_rom_icon("0", pointer_size);
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}
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C_df_ilb(lbl);
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C_lae_dlb(CaseDescrLab, (arith) 0);
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C_csa(word_size);
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}
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else {
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/* CSB */
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C_rom_cst((arith) ch->ch_nrofentries);
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for( ce = ch->ch_entries; ce; ce = ce->ce_next ) {
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C_rom_cst(ce->ce_value);
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C_rom_ilb(ce->ce_label);
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}
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C_df_ilb(lbl);
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C_lae_dlb(CaseDescrLab, (arith) 0);
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C_csb(word_size);
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}
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C_df_ilb(exit_label);
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}
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