465 lines
8.9 KiB
C
465 lines
8.9 KiB
C
/* $Header$ */
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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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/* I N T E R M E D I A T E C O D E
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*
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* I C _ A U X . C
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*/
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#include "../share/types.h"
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#include "../share/global.h"
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#include "../share/debug.h"
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#include "../share/def.h"
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#include "../share/aux.h"
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#include "../../../h/em_pseu.h"
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#include "../../../h/em_spec.h"
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#include "../../../h/em_mnem.h"
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#include "ic.h"
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#include "ic_io.h"
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#include "ic_lookup.h"
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#include "../share/alloc.h"
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#include "ic_aux.h"
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/* opr_size */
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offset opr_size(instr)
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short instr;
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{
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switch(instr) {
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case op_loe:
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case op_ste:
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case op_ine:
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case op_dee:
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case op_zre:
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return (offset) ws;
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case op_lde:
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case op_sde:
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return (offset) 2*ws;
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case op_lae:
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case op_fil:
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return (offset) UNKNOWN_SIZE;
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default:
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error("illegal operand of opr_size: %d", instr);
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}
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/* NOTREACHED */
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}
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/* dblockdef */
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STATIC offset argsize(arg)
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arg_p arg;
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{
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/* Compute the size (in bytes) that the given initializer
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* will occupy.
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*/
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offset s;
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argb_p argb;
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switch(arg->a_type) {
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case ARGOFF:
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/* See if value fits in a short */
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if ((short) arg->a_a.a_offset == arg->a_a.a_offset) {
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return ws;
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} else {
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return 2*ws;
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}
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case ARGINSTRLAB:
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case ARGOBJECT:
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case ARGPROC:
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return ps; /* pointer size */
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case ARGSTRING:
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/* strings are partitioned into pieces */
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s = 0;
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for (argb = &arg->a_a.a_string; argb != (argb_p) 0;
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argb = argb->ab_next) {
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s += argb->ab_index;
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}
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return s;
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case ARGICN:
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case ARGUCN:
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case ARGFCN:
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return arg->a_a.a_con.ac_length;
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default:
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assert(FALSE);
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}
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/* NOTREACHED */
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}
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STATIC offset blocksize(pseudo,args)
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byte pseudo;
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arg_p args;
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{
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/* Determine the number of bytes of a datablock */
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arg_p arg;
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offset sum;
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switch(pseudo) {
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case DHOL:
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case DBSS:
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if (args->a_type != ARGOFF) {
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error("offset expected");
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}
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return args->a_a.a_offset;
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case DCON:
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case DROM:
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sum = 0;
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for (arg = args; arg != (arg_p) 0; arg = arg->a_next) {
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/* Add the sizes of all initializers */
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sum += argsize(arg);
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}
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return sum;
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default:
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assert(FALSE);
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}
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/* NOTREACHED */
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}
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STATIC arg_p copy_arg(arg)
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arg_p arg;
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{
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/* Copy one argument */
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arg_p new;
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assert(arg->a_type == ARGOFF);
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new = newarg(ARGOFF);
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new->a_a.a_offset = arg->a_a.a_offset;
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return new;
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}
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STATIC arg_p copy_rom(args)
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arg_p args;
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{
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/* Make a copy of the values of a rom,
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* provided that the rom contains only integer values,
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*/
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arg_p arg, arg2, argh;
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for (arg = args; arg != (arg_p) 0; arg = arg->a_next) {
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if (arg->a_type != ARGOFF) {
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return (arg_p) 0;
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}
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}
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/* Now make the copy */
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arg2 = argh = copy_arg(args);
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for (arg = args->a_next; arg != (arg_p) 0; arg = arg->a_next) {
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arg2->a_next = copy_arg(arg);
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arg2 = arg2->a_next;
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}
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return argh;
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}
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dblockdef(db,n,lnp)
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dblock_p db;
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int n;
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line_p lnp;
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{
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/* Process a data block defining occurrence */
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byte m;
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switch(n) {
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case ps_hol:
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m = DHOL;
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break;
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case ps_bss:
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m = DBSS;
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break;
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case ps_con:
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m = DCON;
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break;
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case ps_rom:
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m = DROM;
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break;
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default:
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assert(FALSE);
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}
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db->d_pseudo = m;
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db->d_size = blocksize(m, ARG(lnp));
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if (m == DROM) {
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/* We keep the values of a rom block in the data block
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* table if the values consist of integers only.
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*/
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db->d_values = copy_rom(ARG(lnp));
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}
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}
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/* combine */
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combine(db,l1,l2,pseu)
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dblock_p db;
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line_p l1,l2;
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byte pseu;
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{
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/* Combine two successive ROMs/CONs (without a data label
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* in between into a single ROM. E.g.:
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* xyz
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* rom 3,6,9,12
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* rom 7,0,2
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* is changed into:
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* xyz
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* rom 3,6,9,12,7,0,2
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*/
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arg_p v;
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db->d_size += blocksize(pseu,ARG(l2));
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/* db is the data block that was already assigned to the
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* first rom/con. The second one is not assigned a new
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* data block of course, as the two are combined into
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* one instruction.
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*/
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if (pseu == DROM && db->d_values != (arg_p) 0) {
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/* The values contained in a ROM are only copied
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* to the data block if they may be useful to us
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* (e.g. they certainly may not be strings). In our
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* case it means that both ROMs must have useful
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* arguments.
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*/
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for (v = db->d_values; v->a_next != (arg_p) 0; v = v->a_next);
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/* The first rom contained useful arguments. v now points to
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* its last argument. Append the arguments of the second
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* rom to this list. If the second rom has arguments that are
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* not useful, throw away the entire list (we want to copy
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* everything or nothing).
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*/
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if ((v->a_next = copy_rom(ARG(l2))) == (arg_p) 0) {
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oldargs(db->d_values);
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db->d_values = (arg_p) 0;
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}
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}
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for (v = ARG(l1); v->a_next != (arg_p) 0; v = v->a_next);
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/* combine the arguments of both instructions. */
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v->a_next = ARG(l2);
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ARG(l2) = (arg_p) 0;
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}
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/* arglist */
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STATIC arg_string(length,abp)
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offset length;
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register argb_p abp;
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{
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while (length--) {
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if (abp->ab_index == NARGBYTES)
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abp = abp->ab_next = newargb();
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abp->ab_contents[abp->ab_index++] = readchar();
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}
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}
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line_p arglist(n)
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int n;
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{
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line_p lnp;
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register arg_p ap,*app;
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bool moretocome;
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offset length;
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/*
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* creates an arglist with n elements
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* if n == 0 the arglist is variable and terminated by sp_cend
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*/
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lnp = newline(OPLIST);
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app = &ARG(lnp);
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moretocome = TRUE;
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do {
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switch(table2()) {
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default:
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error("unknown byte in arglist");
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case CSTX1:
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tabval2 = (offset) tabval;
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case CSTX2:
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*app = ap = newarg(ARGOFF);
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ap->a_a.a_offset = tabval2;
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app = &ap->a_next;
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break;
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case ILBX:
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*app = ap = newarg(ARGINSTRLAB);
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ap->a_a.a_instrlab = instr_lab((short) tabval);
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app = &ap->a_next;
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break;
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case DLBX:
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*app = ap = newarg(ARGOBJECT);
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ap->a_a.a_obj = object(string,(offset) 0, (offset) 0);
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/* The size of the object is unknown */
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app = &ap->a_next;
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break;
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case sp_pnam:
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*app = ap = newarg(ARGPROC);
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ap->a_a.a_proc = proclookup(string,OCCURRING);
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app = &ap->a_next;
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break;
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case VALX1:
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tabval2 = (offset) tabval;
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case VALX2:
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*app = ap = newarg(ARGOBJECT);
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ap->a_a.a_obj = object(string, tabval2, (offset) 0);
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app = &ap->a_next;
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break;
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case sp_scon:
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*app = ap = newarg(ARGSTRING);
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length = get_off();
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arg_string(length,&ap->a_a.a_string);
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app = &ap->a_next;
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break;
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case sp_icon:
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*app = ap = newarg(ARGICN);
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goto casecon;
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case sp_ucon:
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*app = ap = newarg(ARGUCN);
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goto casecon;
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case sp_fcon:
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*app = ap = newarg(ARGFCN);
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casecon:
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length = get_int();
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ap->a_a.a_con.ac_length = (short) length;
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arg_string(get_off(),&ap->a_a.a_con.ac_con);
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app = &ap->a_next;
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break;
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case sp_cend:
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moretocome = FALSE;
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}
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if (n && (--n) == 0)
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moretocome = FALSE;
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} while (moretocome);
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return(lnp);
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}
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/* is_datalabel */
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bool is_datalabel(l)
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line_p l;
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{
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VL(l);
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return (l->l_instr == (byte) ps_sym);
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}
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/* block_of_lab */
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dblock_p block_of_lab(ident)
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char *ident;
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{
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dblock_p dbl;
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/* Find the datablock with the given name.
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* Used for defining occurrences.
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*/
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dbl = symlookup(ident,DEFINING);
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VD(dbl);
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if (dbl->d_pseudo != DUNKNOWN) {
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error("identifier redeclared");
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}
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return dbl;
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}
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/* object */
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STATIC obj_p make_object(dbl,off,size)
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dblock_p dbl;
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offset off;
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offset size;
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{
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/* Allocate an obj struct with the given attributes
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* (if it did not exist already).
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* Return a pointer to the found or newly created object struct.
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*/
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obj_p obj, prev, new;
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/* See if the object was already present in the object list
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* of the given datablock. If it is not yet present, find
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* the right place to insert the new object. Note that
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* the objects are sorted by offset.
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*/
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prev = (obj_p) 0;
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for (obj = dbl->d_objlist; obj != (obj_p) 0; obj = obj->o_next) {
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if (obj->o_off >= off) {
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break;
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}
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prev = obj;
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}
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/* Note that the data block may contain several objects
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* with the required offset; we also want the size to
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* be the right one.
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*/
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while (obj != (obj_p) 0 && obj->o_off == off) {
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if (obj->o_size == UNKNOWN_SIZE) {
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obj->o_size = size;
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return obj;
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} else {
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if (size == UNKNOWN_SIZE || obj->o_size == size) {
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return obj;
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/* This is the right one */
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} else {
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prev = obj;
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obj = obj->o_next;
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}
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}
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}
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/* Allocate a new object */
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new = newobject();
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new->o_id = ++lastoid; /* create a unique object id */
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new->o_off = off;
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new->o_size = size;
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new->o_dblock = dbl;
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/* Insert the new object */
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if (prev == (obj_p) 0) {
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dbl->d_objlist = new;
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} else {
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prev->o_next = new;
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}
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new->o_next = obj;
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return new;
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}
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obj_p object(ident,off,size)
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char *ident;
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offset off;
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offset size;
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{
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dblock_p dbl;
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/* Create an object struct (if it did not yet exist)
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* for the object with the given size and offset
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* within the datablock of the given name.
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*/
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dbl = (ident == (char *) 0 ? curhol : symlookup(ident, OCCURRING));
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VD(dbl);
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return(make_object(dbl,off,size));
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}
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