source: mainline/uspace/app/pcc/arch/sparc64/local2.c@ c6a7b3a

/*
 * Copyright (c) 2008 David Crawshaw <david@zentus.com>
 * 
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

#include "pass1.h"
#include "pass2.h"


char *
rnames[] = {
        /* "\%g0", always zero, removed due to 31-element class limit */
                "\%g1", "\%g2", "\%g3", "\%g4", "\%g5", "\%g6", "\%g7",
        "\%o0", "\%o1", "\%o2", "\%o3", "\%o4", "\%o5", "\%o6", "\%o7",
        "\%l0", "\%l1", "\%l2", "\%l3", "\%l4", "\%l5", "\%l6", "\%l7",
        "\%i0", "\%i1", "\%i2", "\%i3", "\%i4", "\%i5", "\%i6", "\%i7",

        "\%f0",  "\%f1",  "\%f2",  "\%f3",  "\%f4",  "\%f5",  "\%f6",  "\%f7",
        "\%f8",  "\%f9",  "\%f10", "\%f11", "\%f12", "\%f13", "\%f14", "\%f15",
        "\%f16", "\%f17", "\%f18", "\%f19", "\%f20", "\%f21", "\%f22", "\%f23",
        "\%f24", "\%f25", "\%f26", "\%f27", "\%f28", "\%f29", "\%f30",
        /*, "\%f31" XXX removed due to 31-element class limit */

        "\%f0",  "\%f2",  "\%f4",  "\%f6",  "\%f8",  "\%f10", "\%f12", "\%f14",
        "\%f16", "\%f18", "\%f20", "\%f22", "\%f24", "\%f26", "\%f28", "\%f30",

        "\%sp", "\%fp",
};

void
deflab(int label)
{
        printf(LABFMT ":\n", label);
}

void
prologue(struct interpass_prolog *ipp)
{
        int i, stack;

        stack = V9RESERVE + V9STEP(p2maxautooff);

        for (i = ipp->ipp_regs[0]; i; i >>= 1)
                if (i & 1)
                        stack += 16;

        /* TODO printf("\t.proc %d\n"); */
        if (ipp->ipp_vis)
                printf("\t.global %s\n", ipp->ipp_name);
        printf("\t.align 4\n");
        printf("%s:\n", ipp->ipp_name);
        if (SIMM13(stack))
                printf("\tsave %%sp,-%d,%%sp\n", stack);
        else {
                printf("\tsetx -%d,%%g4,%%g1\n", stack);
                printf("\tsave %%sp,%%g1,%%sp\n");
        }
}

void
eoftn(struct interpass_prolog *ipp)
{
        printf("\tret\n");
        printf("\trestore\n");
        printf("\t.type %s,#function\n", ipp->ipp_name);
        printf("\t.size %s,(.-%s)\n", ipp->ipp_name, ipp->ipp_name);
}

void
hopcode(int f, int o)
{
        char *str;

        switch (o) {
                case EQ:        str = "brz"; break;
                case NE:        str = "brnz"; break;
                case ULE:
                case LE:        str = "brlez"; break;
                case ULT:
                case LT:        str = "brlz";  break;
                case UGE:
                case GE:        str = "brgez"; break;
                case UGT:
                case GT:        str = "brgz";  break;
                case PLUS:      str = "add"; break;
                case MINUS:     str = "sub"; break;
                case AND:       str = "and"; break;
                case OR:        str = "or";  break;
                case ER:        str = "xor"; break;
                default:
                        comperr("unknown hopcode: %d (with %c)", o, f);
                        return;
        }

        printf("%s%c", str, f);
}

int
tlen(NODE *p)
{
        switch (p->n_type) {
                case CHAR:
                case UCHAR:
                        return 1;
                case SHORT:
                case USHORT:
                        return (SZSHORT / SZCHAR);
                case FLOAT:
                        return (SZFLOAT / SZCHAR);
                case DOUBLE:
                        return (SZDOUBLE / SZCHAR);
                case INT:
                case UNSIGNED:
                        return (SZINT / SZCHAR);
                case LONG:
                case ULONG:
                case LONGLONG:
                case ULONGLONG:
                        return SZLONGLONG / SZCHAR;
                default:
                        if (!ISPTR(p->n_type))
                                comperr("tlen type unknown: %d");
                        return SZPOINT(p->n_type) / SZCHAR;
        }
}

void
zzzcode(NODE * p, int c)
{
        char *str;
        NODE *l, *r;
        l = p->n_left;
        r = p->n_right;

        switch (c) {

        case 'A':       /* Add const. */
                if (ISPTR(l->n_type) && l->n_rval == FP)
                        r->n_lval += V9BIAS;

                if (SIMM13(r->n_lval))
                        expand(p, 0, "\tadd AL,AR,A1\t\t! add const\n");
                else
                        expand(p, 0, "\tsetx AR,A3,A2\t\t! add const\n"
                                     "\tadd AL,A2,A1\n");
                break;
        case 'B':       /* Subtract const. */
                if (ISPTR(l->n_type) && l->n_rval == FP)
                        r->n_lval -= V9BIAS;

                if (SIMM13(r->n_lval))
                        expand(p, 0, "\tsub AL,AR,A1\t\t! subtract const\n");
                else
                        expand(p, 0, "\tsetx AR,A3,A2\t\t! subtract const\n"
                                     "\tsub AL,A2,A1\n");
                break;
        case 'C':       /* Load constant to register. */
                if (ISPTR(p->n_type))
                        expand(p, 0,
                                "\tsethi %h44(AL),A1\t\t! load label\n"
                                "\tor A1,%m44(AL),A1\n"
                                "\tsllx A1,12,A1\n"
                                "\tor A1,%l44(AL),A1\n");
                else if (SIMM13(p->n_lval))
                        expand(p, 0, "\tor %g0,AL,A1\t\t\t! load const\n");
                else
                        expand(p, 0, "\tsetx AL,A2,A1\t\t! load const\n");
                break;
        case 'F':       /* Floating-point comparison, cf. hopcode(). */
                switch (p->n_op) {
                        case EQ:        str = "fbe"; break;
                        case NE:        str = "fbne"; break;
                        case ULE:
                        case LE:        str = "fbule"; break;
                        case ULT:
                        case LT:        str = "fbul";  break;
                        case UGE:
                        case GE:        str = "fbuge"; break;
                        case UGT:
                        case GT:        str = "fbug";  break;
                        /* XXX
                        case PLUS:      str = "add"; break;
                        case MINUS:     str = "sub"; break;
                        case AND:       str = "and"; break;
                        case OR:        str = "or";  break;
                        case ER:        str = "xor"; break;*/
                        default:
                                comperr("unknown float code: %d", p->n_op);
                                return;
                }
                printf(str);
                break;

        case 'Q':       /* Structure assignment. */
                /* TODO Check if p->n_stsize is small and use a few ldx's
                        to move the struct instead of memcpy. The equiv.
                        could be done on all the architectures. */
                if (l->n_rval != O0)
                        printf("\tmov %s,%s\n", rnames[l->n_rval], rnames[O0]);
                if (SIMM13(p->n_stsize))
                        printf("\tor %%g0,%d,%%o2\n", p->n_stsize);
                else
                        printf("\tsetx %d,%%g1,%%o2\n", p->n_stsize);
                printf("\tcall memcpy\t\t\t! struct assign (dest, src, len)\n");
                printf("\tnop\n");
                break;
        default:
                cerror("unknown zzzcode call: %c", c);
        }
}

int
rewfld(NODE * p)
{
        return (1);
}

int
fldexpand(NODE *p, int cookie, char **cp)
{
        printf("XXX fldexpand called\n"); /* XXX */
        return 1;
}

int
flshape(NODE * p)
{
        return SRREG;
}

int
shtemp(NODE * p)
{
        return 0;
}


void
adrcon(CONSZ val)
{
}

void
conput(FILE * fp, NODE * p)
{
        if (p->n_op != ICON) {
                comperr("conput got bad op: %s", copst(p->n_op));
                return;
        }

        if (p->n_name[0] != '\0') {
                fprintf(fp, "%s", p->n_name);
                if (p->n_lval > 0)
                        fprintf(fp, "+");
                if (p->n_lval)
                        fprintf(fp, CONFMT, p->n_lval);
        } else
                fprintf(fp, CONFMT, p->n_lval);
}

void
insput(NODE * p)
{
        comperr("insput");
}

void
upput(NODE *p, int size)
{
        comperr("upput");
}

void
adrput(FILE * io, NODE * p)
{
        int64_t off;

        if (p->n_op == FLD) {
                printf("adrput a FLD\n");
                p = p->n_left;
        }

        if (p->n_op == UMUL && p->n_right == 0)
                p = p->n_left;

        off = p->n_lval;

        switch (p->n_op) {
        case NAME:
                if (p->n_name[0] != '\0')
                        fputs(p->n_name, io);
                if (off > 0)
                        fprintf(io, "+");
                if (off != 0)
                        fprintf(io, CONFMT, (long long int)off);
                return;
        case OREG:
                fprintf(io, "%s", rnames[p->n_rval]);
                if (p->n_rval == FP)
                        off += V9BIAS;
                if (p->n_rval == SP)
                        off += V9BIAS + V9RESERVE;
                if (off > 0)
                        fprintf(io, "+");
                if (off)
                        fprintf(io, CONFMT, (CONSZ)off);
                return;
        case ICON:
                /* addressable value of the constant */
                conput(io, p);
                return;
        case REG:
                fputs(rnames[p->n_rval], io);
                return;
        case FUNARG:
                /* We do something odd and store the stack offset in n_rval. */
                fprintf(io, "%d", V9BIAS + V9RESERVE + p->n_rval);
                return;
        default:
                comperr("bad address, %s, node %p", copst(p->n_op), p);
                return;
        }
}

void
cbgen(int o, int lab)
{
}

void
myreader(struct interpass * ipole)
{
}

void
mycanon(NODE * p)
{
}

void
myoptim(struct interpass * ipole)
{
}

void
rmove(int s, int d, TWORD t)
{
        printf("\t");

        if (t == FLOAT)       printf("fmovs");
        else if (t == DOUBLE) printf("fmovd");
        else                  printf("mov");

        printf(" %s,%s\t\t\t! rmove()\n", rnames[s], rnames[d]);
}

int
gclass(TWORD t)
{
        if (t == FLOAT)
                return CLASSB;
        if (t == DOUBLE)
                return CLASSC;
        return CLASSA;
}

void
lastcall(NODE *p)
{
}

int
special(NODE *p, int shape)
{
        return SRNOPE;
}

void mflags(char *str)
{
}

int
COLORMAP(int c, int *r)
{
        int num=0;

        switch (c) {
                case CLASSA:
                        num += r[CLASSA];
                        return num < 32;
                case CLASSB:
                        num += r[CLASSB];
                        num += 2*r[CLASSC];
                        return num < 32;;
                case CLASSC:
                        num += r[CLASSC];
                        num += 2*r[CLASSB];
                        return num < 17;
                case CLASSD:
                        return 0;
                default:
                        comperr("COLORMAP: unknown class: %d", c);
                        return 0;
        }
}
/*
 * Do something target-dependent for xasm arguments.
 * Supposed to find target-specific constraints and rewrite them.
 */
int
myxasm(struct interpass *ip, NODE *p)
{
        return 0;
}