380 lines
7.8 KiB
C
380 lines
7.8 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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/* V A L U E N U M B E R I N G M E T H O D */
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#include <em_mnem.h>
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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/utils.h"
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#include "cs.h"
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#include "cs_alloc.h"
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#include "cs_aux.h"
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#include "cs_entity.h"
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#include "cs_avail.h"
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#include "cs_stack.h"
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#include "cs_kill.h"
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#include "cs_partit.h"
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#include "cs_getent.h"
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#include "cs_profit.h"
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STATIC void push_entity(entity_p enp, line_p lfirst)
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{
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/* Build token and Push it. */
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struct token tk;
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tk.tk_vn = enp->en_vn;
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tk.tk_size = enp->en_size;
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tk.tk_lfirst = lfirst;
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Push(&tk);
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}
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STATIC void put_expensive_load(bblock_p bp, line_p lnp, line_p lfirst,
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entity_p enp)
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{
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struct avail av;
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occur_p ocp;
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av.av_instr = INSTR(lnp);
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av.av_size = enp->en_size;
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av.av_operand = enp->en_vn;
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ocp = newoccur(lfirst, lnp, bp);
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av_enter(&av, ocp, EXPENSIVE_LOAD);
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}
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STATIC void put_aar(bblock_p bp, line_p lnp, line_p lfirst, entity_p enp)
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{
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/* Enter the implicit AAR in a LAR or SAR, where enp points to
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* the ENARRELEM, and AAR computes its address.
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*/
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struct avail av;
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occur_p ocp;
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assert(INSTR(lnp) == op_lar || INSTR(lnp) == op_sar);
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assert(enp->en_kind == ENARRELEM);
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av.av_instr = op_aar;
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av.av_size = ps;
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av.av_ofirst = enp->en_arbase;
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av.av_osecond = enp->en_index;
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av.av_othird = enp->en_adesc;
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/* Before we enter an available AAR, we must check whether we
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* may convert this LAR/SAR to AAR LOI/STI. This is so we
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* don't LOI/STI a large or unknown size.
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*/
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if (may_become_aar(&av)) {
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ocp = newoccur(lfirst, lnp, bp);
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av_enter(&av, ocp, TERNAIR_OP);
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}
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}
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STATIC void push_avail(avail_p avp, line_p lfirst)
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{
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struct token tk;
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tk.tk_vn = avp->av_result;
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tk.tk_size = avp->av_size;
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tk.tk_lfirst = lfirst;
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Push(&tk);
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}
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STATIC void push_unair_op(bblock_p bp, line_p lnp, token_p tkp1)
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{
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struct avail av;
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occur_p ocp;
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av.av_instr = INSTR(lnp);
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av.av_size = avsize(lnp);
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av.av_operand = tkp1->tk_vn;
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ocp = newoccur(tkp1->tk_lfirst, lnp, bp);
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push_avail(av_enter(&av, ocp, UNAIR_OP), tkp1->tk_lfirst);
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}
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STATIC void push_binair_op(bblock_p bp, line_p lnp, token_p tkp1, token_p tkp2)
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{
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struct avail av;
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occur_p ocp;
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av.av_instr = INSTR(lnp);
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av.av_size = avsize(lnp);
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av.av_oleft = tkp1->tk_vn;
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av.av_oright = tkp2->tk_vn;
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ocp = newoccur(tkp1->tk_lfirst, lnp, bp);
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push_avail(av_enter(&av, ocp, BINAIR_OP), tkp1->tk_lfirst);
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}
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STATIC void push_ternair_op(bblock_p bp, line_p lnp, token_p tkp1,
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token_p tkp2, token_p tkp3)
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{
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struct avail av;
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occur_p ocp;
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av.av_instr = INSTR(lnp);
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av.av_size = avsize(lnp);
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av.av_ofirst = tkp1->tk_vn;
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av.av_osecond = tkp2->tk_vn;
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av.av_othird = tkp3->tk_vn;
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ocp = newoccur(tkp1->tk_lfirst, lnp, bp);
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push_avail(av_enter(&av, ocp, TERNAIR_OP), tkp1->tk_lfirst);
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}
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STATIC void push_remainder(bblock_p bp, line_p lnp, token_p tkp1, token_p tkp2)
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{
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/* Enter the implicit division tkp1 / tkp2,
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* then push the remainder tkp1 % tkp2.
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*/
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struct avail av;
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occur_p ocp;
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assert(INSTR(lnp) == op_rmi || INSTR(lnp) == op_rmu);
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av.av_size = avsize(lnp);
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av.av_oleft = tkp1->tk_vn;
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av.av_oright = tkp2->tk_vn;
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/* Check whether we may convert RMI/RMU to DVI/DVU. */
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if (may_become_dv()) {
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/* The division is DVI in RMI, or DVU in RMU. */
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av.av_instr = (INSTR(lnp) == op_rmi ? op_dvi : op_dvu);
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/* In postfix, a b % becomes a b a b / * -. We must
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* keep a and b on the stack, so the first instruction
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* to eliminate is lnp, not tkp1->l_first.
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*/
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ocp = newoccur(lnp, lnp, bp);
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av_enter(&av, ocp, BINAIR_OP);
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}
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av.av_instr = INSTR(lnp);
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ocp = newoccur(tkp1->tk_lfirst, lnp, bp);
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push_avail(av_enter(&av, ocp, REMAINDER), tkp1->tk_lfirst);
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}
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STATIC void fiddle_stack(line_p lnp)
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{
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/* The instruction in lnp does something to the valuenumber-stack. */
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struct token dummy;
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offset size;
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/* Partly initialize dummy. */
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dummy.tk_lfirst = lnp;
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switch (INSTR(lnp)) {
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default:
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assert(FALSE);
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break;
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case op_lor:
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dummy.tk_vn = newvalnum(); dummy.tk_size = ps;
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Push(&dummy);
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break;
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case op_asp:
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if ((size = off_set(lnp)) > 0) {
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Pop(&dummy, size);
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} else {
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dummy.tk_vn = newvalnum();
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dummy.tk_size = size;
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Push(&dummy);
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}
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break;
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case op_dup:
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Dup(lnp);
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break;
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case op_ass:
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case op_dus:
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case op_exg:
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case op_los:
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/* Don't waste effort. */
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clr_stack();
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break;
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case op_sig:
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Pop(&dummy, (offset) ps);
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break;
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case op_lfr:
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dummy.tk_vn = newvalnum();
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dummy.tk_size = off_set(lnp);
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Push(&dummy);
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break;
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case op_beq:
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case op_bge:
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case op_bgt:
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case op_bne:
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case op_ble:
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case op_blt:
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Pop(&dummy, (offset) ws);
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Pop(&dummy, (offset) ws);
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break;
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case op_bra:
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case op_csa:/* ??? */
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case op_csb:/* ??? */
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case op_gto:/* ??? */
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case op_ret:/* ??? */
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case op_rtt:/* ??? */
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break;
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case op_zeq:
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case op_zge:
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case op_zgt:
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case op_zne:
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case op_zle:
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case op_zlt:
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case op_trp:
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Pop(&dummy, (offset) ws);
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break;
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case op_rck:
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Pop(&dummy, (offset) ps);
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break;
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}
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}
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STATIC proc_p find_proc(vn)
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valnum vn;
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{
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/* Find the procedure-identifier with valuenumber vn. */
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entity_p enp;
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enp = find_entity(vn);
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if (enp != (entity_p) 0 && enp->en_kind == ENPROC)
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return enp->en_pro;
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return (proc_p) 0;
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}
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STATIC void side_effects(line_p lnp)
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{
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/* Lnp contains a cai or cal instruction. We try to find the callee
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* and see what side-effects it has.
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*/
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struct token tk;
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proc_p pp;
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if (INSTR(lnp) == op_cai) {
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Pop(&tk, (offset) ps);
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pp = find_proc(tk.tk_vn);
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} else {
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assert(INSTR(lnp) == op_cal);
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pp = PROC(lnp);
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}
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if (pp != (proc_p) 0) {
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kill_call(pp);
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} else {
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kill_much();
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}
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}
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STATIC void hopeless(int instr)
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{
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/* The effect of `instr' is too difficult to
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* compute. We assume worst case behaviour.
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*/
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switch (instr) {
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default:
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assert(FALSE);
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break;
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case op_mon:
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case op_str:
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case op_nop: /* for volatiles */
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/* We can't even trust "static" entities. */
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kill_all();
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clr_stack();
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break;
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case op_blm:
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case op_bls:
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case op_sts:
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kill_much();
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clr_stack();
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break;
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}
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}
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void vnm(bblock_p bp)
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{
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register line_p lnp;
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register entity_p rep;
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line_p lfirst;
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struct token tk, tk1, tk2, tk3;
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for (lnp = bp->b_start; lnp != (line_p) 0; lnp = lnp->l_next) {
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rep = getentity(lnp, &lfirst);
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switch (instrgroup(lnp)) {
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case SIMPLE_LOAD:
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push_entity(rep, lfirst);
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break;
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case LOAD_ARRAY:
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put_aar(bp, lnp, lfirst, rep);
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/* Fall through ... */
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case EXPENSIVE_LOAD:
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push_entity(rep, lfirst);
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put_expensive_load(bp, lnp, lfirst, rep);
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break;
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case STORE_DIRECT:
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kill_direct(rep);
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Pop(&tk, rep->en_size);
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rep->en_vn = tk.tk_vn;
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break;
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case STORE_ARRAY:
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put_aar(bp, lnp, lfirst, rep);
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/* Fall through ... */
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case STORE_INDIR:
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kill_indir(rep);
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Pop(&tk, rep->en_size);
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rep->en_vn = tk.tk_vn;
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break;
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case UNAIR_OP:
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Pop(&tk1, op11size(lnp));
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push_unair_op(bp, lnp, &tk1);
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break;
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case BINAIR_OP:
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Pop(&tk2, op22size(lnp));
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Pop(&tk1, op12size(lnp));
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push_binair_op(bp, lnp, &tk1, &tk2);
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break;
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case TERNAIR_OP:
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Pop(&tk3, op33size(lnp));
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Pop(&tk2, op23size(lnp));
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Pop(&tk1, op13size(lnp));
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push_ternair_op(bp, lnp, &tk1, &tk2, &tk3);
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break;
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case REMAINDER:
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Pop(&tk2, op22size(lnp));
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Pop(&tk1, op12size(lnp));
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push_remainder(bp, lnp, &tk1, &tk2);
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break;
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case KILL_ENTITY:
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kill_direct(rep);
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break;
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case SIDE_EFFECTS:
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side_effects(lnp);
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break;
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case FIDDLE_STACK:
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fiddle_stack(lnp);
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break;
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case IGNORE:
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break;
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case HOPELESS:
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hopeless(INSTR(lnp));
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break;
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case BBLOCK_END:
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fiddle_stack(lnp);
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break;
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default:
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assert(FALSE);
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break;
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}
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}
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}
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