fm: remove sparc-only modules

[unleashed.git] / usr / src / lib / efcode / engine / prims64.c

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License, Version 1.0 only
 * (the "License").  You may not use this file except in compliance
 * with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */
/*
 * Copyright (c) 2000 by Sun Microsystems, Inc.
 * All rights reserved.
 */

#pragma ident   "%Z%%M% %I%     %E% SMI"

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <fcode/private.h>
#include <fcdriver/fcdriver.h>

#define LF_PER_XF       (sizeof (xforth_t)/sizeof (lforth_t))
#define WF_PER_XF       (sizeof (xforth_t)/sizeof (wforth_t))

void unaligned_xfetch(fcode_env_t *);
void unaligned_xstore(fcode_env_t *);
static void xbsplit(fcode_env_t *);

xforth_t
pop_xforth(fcode_env_t *env)
{
        if (sizeof (xforth_t) == sizeof (fstack_t))
                return (POP(DS));
        return ((xforth_t)pop_double(env));
}

xforth_t
peek_xforth(fcode_env_t *env)
{
        xforth_t d;

        d = pop_xforth(env);
        push_xforth(env, d);
        return (d);
}

void
push_xforth(fcode_env_t *env, xforth_t a)
{
        if (sizeof (xforth_t) == sizeof (fstack_t))
                PUSH(DS, a);
        else
                push_double(env, (dforth_t)a);
}

/*
 * bxjoin     ( b.lo b.2 b.3 b.4 b.5 b.6 b.7 b.hi -- o )
 */
static void
bxjoin(fcode_env_t *env)
{
        union {
                uchar_t b_bytes[sizeof (xforth_t)];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, sizeof (xforth_t), "bxjoin");
        for (i = 0; i < sizeof (xforth_t); i++)
                b.b_bytes[i] = POP(DS);
        push_xforth(env, b.b_xf);
}

/*
 * <l@        ( qaddr -- n )
 */
static void
lsfetch(fcode_env_t *env)
{
        s_lforth_t *addr;
        xforth_t a;

        CHECK_DEPTH(env, 1, "<l@");
        addr = (s_lforth_t *)POP(DS);
        a = *addr;
        push_xforth(env, a);
}

/*
 * lxjoin     ( quad.lo quad.hi -- o )
 */
static void
lxjoin(fcode_env_t *env)
{
        union {
                lforth_t b_lf[LF_PER_XF];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, LF_PER_XF, "lxjoin");
        for (i = 0; i < LF_PER_XF; i++)
                b.b_lf[i] = POP(DS);
        push_xforth(env, b.b_xf);
}

/*
 * wxjoin     ( w.lo w.2 w.3 w.hi -- o )
 */
static void
wxjoin(fcode_env_t *env)
{
        union {
                wforth_t b_wf[WF_PER_XF];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, WF_PER_XF, "wxjoin");
        for (i = 0; i < WF_PER_XF; i++)
                b.b_wf[i] = POP(DS);
        push_xforth(env, b.b_xf);
}

/*
 * x,         ( o -- )
 */
static void
xcomma(fcode_env_t *env)
{
        CHECK_DEPTH(env, 1, "x,");
        DEBUGF(COMMA, dump_comma(env, "x,"));
        PUSH(DS, (fstack_t)HERE);
        unaligned_xstore(env);
        set_here(env, HERE + sizeof (xforth_t), "xcomma");
}

/*
 * x@         ( xaddr  -- o )
 */
void
xfetch(fcode_env_t *env)
{
        xforth_t *addr;
        xforth_t a;

        CHECK_DEPTH(env, 1, "x@");
        addr = (xforth_t *)POP(DS);
        a = *addr;
        push_xforth(env, a);
}

/*
 * x!         ( o xaddr -- )
 */
void
xstore(fcode_env_t *env)
{
        xforth_t *addr;
        xforth_t a;

        CHECK_DEPTH(env, 2, "x!");
        addr = (xforth_t *)POP(DS);
        a = pop_xforth(env);
        *addr = a;
}

/*
 * /x         ( -- n )
 */
static void
slash_x(fcode_env_t *env)
{
        PUSH(DS, sizeof (xforth_t));
}

/*
 * /x*        ( nu1 -- nu2 )
 */
static void
slash_x_times(fcode_env_t *env)
{
        CHECK_DEPTH(env, 1, "/x*");
        TOS *= sizeof (xforth_t);
}

/*
 * xa+        ( addr1 index -- addr2 )
 */
static void
xa_plus(fcode_env_t *env)
{
        fstack_t index;

        CHECK_DEPTH(env, 2, "xa+");
        index = POP(DS);
        TOS += index * sizeof (xforth_t);
}

/*
 * xa1+       ( addr1 -- addr2 )
 */
static void
xa_one_plus(fcode_env_t *env)
{
        CHECK_DEPTH(env, 1, "xa1+");
        TOS += sizeof (xforth_t);
}

/*
 * xbflip     ( oct1 -- oct2 )
 */
void
xbflip(fcode_env_t *env)
{
        union {
                uchar_t b_bytes[sizeof (xforth_t)];
                xforth_t b_xf;
        } b, c;
        int i;

        CHECK_DEPTH(env, 1, "xbflip");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < sizeof (xforth_t); i++)
                c.b_bytes[i] = b.b_bytes[(sizeof (xforth_t) - 1) - i];
        push_xforth(env, c.b_xf);
}

void
unaligned_xfetch(fcode_env_t *env)
{
        fstack_t addr;
        int i;

        CHECK_DEPTH(env, 1, "unaligned-x@");
        addr = POP(DS);
        for (i = 0; i < sizeof (xforth_t); i++, addr++) {
                PUSH(DS, addr);
                cfetch(env);
        }
        bxjoin(env);
        xbflip(env);
}

void
unaligned_xstore(fcode_env_t *env)
{
        fstack_t addr;
        int i;

        CHECK_DEPTH(env, 2, "unaligned-x!");
        addr = POP(DS);
        xbsplit(env);
        for (i = 0; i < sizeof (xforth_t); i++, addr++) {
                PUSH(DS, addr);
                cstore(env);
        }
}

/*
 * xbflips    ( xaddr len -- )
 */
static void
xbflips(fcode_env_t *env)
{
        fstack_t len, addr;
        int i;

        CHECK_DEPTH(env, 2, "xbflips");
        len = POP(DS);
        addr = POP(DS);
        for (i = 0; i < len; i += sizeof (xforth_t),
            addr += sizeof (xforth_t)) {
                PUSH(DS, addr);
                unaligned_xfetch(env);
                xbflip(env);
                PUSH(DS, addr);
                unaligned_xstore(env);
        }
}

/*
 * xbsplit    ( o -- b.lo b.2 b.3 b.4 b.5 b.6 b.7 b.hi )
 */
static void
xbsplit(fcode_env_t *env)
{
        union {
                uchar_t b_bytes[sizeof (xforth_t)];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, 1, "xbsplit");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < sizeof (xforth_t); i++)
                PUSH(DS, b.b_bytes[(sizeof (xforth_t) - 1) - i]);
}

/*
 * xlflip     ( oct1 -- oct2 )
 */
void
xlflip(fcode_env_t *env)
{
        union {
                lforth_t b_lf[LF_PER_XF];
                xforth_t b_xf;
        } b, c;
        int i;

        CHECK_DEPTH(env, 1, "xlflip");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < LF_PER_XF; i++)
                c.b_lf[i] = b.b_lf[(LF_PER_XF - 1) - i];
        push_xforth(env, c.b_xf);
}

/*
 * xlflips    ( xaddr len -- )
 */
static void
xlflips(fcode_env_t *env)
{
        fstack_t len, addr;
        int i;

        CHECK_DEPTH(env, 2, "xlflips");
        len = POP(DS);
        addr = POP(DS);
        for (i = 0; i < len; i += sizeof (xforth_t),
            addr += sizeof (xforth_t)) {
                PUSH(DS, addr);
                unaligned_xfetch(env);
                xlflip(env);
                PUSH(DS, addr);
                unaligned_xstore(env);
        }
}

/*
 * xlsplit    ( o -- quad.lo quad.hi )
 */
static void
xlsplit(fcode_env_t *env)
{
        union {
                lforth_t b_lf[LF_PER_XF];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, 1, "xlsplit");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < LF_PER_XF; i++)
                PUSH(DS, b.b_lf[(LF_PER_XF - 1) - i]);
}


/*
 * xwflip     ( oct1 -- oct2 )
 */
static void
xwflip(fcode_env_t *env)
{
        union {
                wforth_t b_wf[WF_PER_XF];
                xforth_t b_xf;
        } b, c;
        int i;

        CHECK_DEPTH(env, 1, "xwflip");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < WF_PER_XF; i++)
                c.b_wf[i] = b.b_wf[(WF_PER_XF - 1) - i];
        push_xforth(env, c.b_xf);
}

/*
 * xwflips    ( xaddr len -- )
 */
static void
xwflips(fcode_env_t *env)
{
        fstack_t len, addr;
        int i;

        CHECK_DEPTH(env, 2, "xwflips");
        len = POP(DS);
        addr = POP(DS);
        for (i = 0; i < len; i += sizeof (xforth_t),
            addr += sizeof (xforth_t)) {
                PUSH(DS, addr);
                unaligned_xfetch(env);
                xwflip(env);
                PUSH(DS, addr);
                unaligned_xstore(env);
        }
}

/*
 * xwsplit    ( o -- w.lo w.2 w.3 w.hi )
 */
static void
xwsplit(fcode_env_t *env)
{
        union {
                wforth_t b_wf[WF_PER_XF];
                xforth_t b_xf;
        } b;
        int i;

        CHECK_DEPTH(env, 1, "xwsplit");
        b.b_xf = pop_xforth(env);
        for (i = 0; i < WF_PER_XF; i++)
                PUSH(DS, b.b_wf[(WF_PER_XF - 1) - i]);
}

#pragma init(_init)

static void
_init(void)
{
        fcode_env_t *env = initial_env;

        ASSERT(env);
        NOTICE;
        P1275(0x241,    0,      "bxjoin",               bxjoin);
        P1275(0x242,    0,      "<l@",                  lsfetch);
        P1275(0x243,    0,      "lxjoin",               lxjoin);
        P1275(0x244,    0,      "wxjoin",               wxjoin);
        P1275(0x245,    0,      "x,",                   xcomma);
        P1275(0x246,    0,      "x@",                   xfetch);
        P1275(0x247,    0,      "x!",                   xstore);
        P1275(0x248,    0,      "/x",                   slash_x);
        P1275(0x249,    0,      "/x*",                  slash_x_times);
        P1275(0x24a,    0,      "xa+",                  xa_plus);
        P1275(0x24b,    0,      "xa1+",                 xa_one_plus);
        P1275(0x24c,    0,      "xbflip",               xbflip);
        P1275(0x24d,    0,      "xbflips",              xbflips);
        P1275(0x24e,    0,      "xbsplit",              xbsplit);
        P1275(0x24f,    0,      "xlflip",               xlflip);
        P1275(0x250,    0,      "xlflips",              xlflips);
        P1275(0x251,    0,      "xlsplit",              xlsplit);
        P1275(0x252,    0,      "xwflip",               xwflip);
        P1275(0x253,    0,      "xwflips",              xwflips);
        P1275(0x254,    0,      "xwsplit",              xwsplit);

        FORTH(0,                "unaligned-x@",         unaligned_xfetch);
        FORTH(0,                "unaligned-x!",         unaligned_xstore);
}