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#include        "l.h"

enum
{
        E_HILO  = 1<<0,
        E_FCR   = 1<<1,
        E_MCR   = 1<<2,
        E_MEM   = 1<<3,
        E_MEMSP = 1<<4, /* uses offset and size */
        E_MEMSB = 1<<5, /* uses offset and size */
        ANYMEM  = E_MEM|E_MEMSP|E_MEMSB,
        DELAY   = BRANCH|LOAD|FCMP,
};

typedef struct  Sch     Sch;
typedef struct  Dep     Dep;

struct  Dep
{
        ulong   ireg;
        ulong   freg;
        ulong   cc;
};
struct  Sch
{
        Prog    p;
        Dep     set;
        Dep     used;
        long    soffset;
        char    size;
        char    nop;
        char    comp;
};

void    regsused(Sch*, Prog*);
int     depend(Sch*, Sch*);
int     conflict(Sch*, Sch*);
int     offoverlap(Sch*, Sch*);
void    dumpbits(Sch*, Dep*);

void
sched(Prog *p0, Prog *pe)
{
        Prog *p, *q;
        Sch sch[NSCHED], *s, *t, *u, *se, stmp;

        /*
         * build side structure
         */
        s = sch;
        for(p=p0;; p=p->link) {
                memset(s, 0, sizeof(*s));
                s->p = *p;
                regsused(s, p);
                if(debug['X']) {
                        Bprint(&bso, "%P\t\tset", &s->p);
                        dumpbits(s, &s->set);
                        Bprint(&bso, "; used");
                        dumpbits(s, &s->used);
                        if(s->comp)
                                Bprint(&bso, "; compound");
                        if(s->p.mark & LOAD)
                                Bprint(&bso, "; load");
                        if(s->p.mark & BRANCH)
                                Bprint(&bso, "; branch");
                        if(s->p.mark & FCMP)
                                Bprint(&bso, "; fcmp");
                        Bprint(&bso, "\n");
                }
                if(p == pe)
                        break;
                s++;
        }
        se = s;

        /*
         * prepass to move things around
         * does nothing, but tries to make
         * the actual scheduler work better
         */
        for(s=sch; s<=se; s++) {
                if(!(s->p.mark & LOAD))
                        continue;
                /* always good to put nonconflict loads together */
                for(t=s+1; t<=se; t++) {
                        if(!(t->p.mark & LOAD))
                                continue;
                        if(t->p.mark & BRANCH)
                                break;
                        if(conflict(s, t))
                                break;
                        for(u=t-1; u>s; u--)
                                if(depend(u, t))
                                        goto no11;
                        u = s+1;
                        stmp = *t;
                        memmove(s+2, u, (uchar*)t - (uchar*)u);
                        *u = stmp;
                        break;
                }
        no11:

                /* put schedule fodder above load */
                for(t=s+1; t<=se; t++) {
                        if(t->p.mark & BRANCH)
                                break;
                        if(s > sch && conflict(s-1, t))
                                continue;
                        for(u=t-1; u>=s; u--)
                                if(depend(t, u))
                                        goto no1;
                        stmp = *t;
                        memmove(s+1, s, (uchar*)t - (uchar*)s);
                        *s = stmp;
                        if(!(s->p.mark & LOAD))
                                break;
                no1:;
                }
        }

        for(s=se; s>=sch; s--) {
                if(!(s->p.mark & DELAY))
                        continue;
                if(s < se)
                        if(!conflict(s, s+1))
                                goto out3;
                /*
                 * s is load, s+1 is immediate use of result or end of block
                 * t is the trial instruction to insert between s and s+1
                 */
                if(!debug['Y'])
                for(t=s-1; t>=sch; t--) {
                        if(t->comp)
                                if(s->p.mark & BRANCH)
                                        goto no2;
                        if(t->p.mark & DELAY)
                                if(s >= se || conflict(t, s+1))
                                        goto no2;
                        for(u=t+1; u<=s; u++)
                                if(depend(u, t))
                                        goto no2;
                        goto out2;
                no2:;
                }
                if(debug['X'])
                        Bprint(&bso, "?l%P\n", &s->p);
                s->nop = 1;
                if(debug['v']) {
                        if(s->p.mark & LOAD) {
                                nop.load.count++;
                                nop.load.outof++;
                        }
                        if(s->p.mark & BRANCH) {
                                nop.branch.count++;
                                nop.branch.outof++;
                        }
                        if(s->p.mark & FCMP) {
                                nop.fcmp.count++;
                                nop.fcmp.outof++;
                        }
                }
                continue;

        out2:
                if(debug['X']) {
                        Bprint(&bso, "!l%P\n", &t->p);
                        Bprint(&bso, "%P\n", &s->p);
                }
                stmp = *t;
                memmove(t, t+1, (uchar*)s - (uchar*)t);
                *s = stmp;
                s--;

        out3:
                if(debug['v']) {
                        if(s->p.mark & LOAD)
                                nop.load.outof++;
                        if(s->p.mark & BRANCH)
                                nop.branch.outof++;
                        if(s->p.mark & FCMP)
                                nop.fcmp.outof++;
                }
        }

        /* Avoid HI/LO use->set */
        t = sch+1;
        for(s=sch; s<se-1; s++, t++) {
                if((s->used.cc & E_HILO) == 0)
                        continue;
                if(t->set.cc & E_HILO)
                        s->nop = 2;
        }

        /*
         * put it all back
         */
        for(s=sch, p=p0; s<=se; s++, p=q) {
                q = p->link;
                if(q != s->p.link) {
                        *p = s->p;
                        p->link = q;
                }
                while(s->nop--)
                        addnop(p);
        }
        if(debug['X']) {
                Bprint(&bso, "\n");
                Bflush(&bso);
        }
}

void
regsused(Sch *s, Prog *realp)
{
        int c, ar, ad, ld, sz;
        ulong m;
        Prog *p;

        p = &s->p;
        s->comp = compound(p);
        s->nop = 0;
        if(s->comp) {
                s->set.ireg |= 1<<REGTMP;
                s->used.ireg |= 1<<REGTMP;
        }

        ar = 0;         /* dest is really reference */
        ad = 0;         /* source/dest is really address */
        ld = 0;         /* opcode is load instruction */
        sz = 20;        /* size of load/store for overlap computation */

/*
 * flags based on opcode
 */
        switch(p->as) {
        case ATEXT:
                curtext = realp;
                autosize = p->to.offset + 4;
                ad = 1;
                break;
        case AJAL:
                c = p->reg;
                if(c == NREG)
                        c = REGLINK;
                s->set.ireg |= 1<<c;
                ar = 1;
                ad = 1;
                break;
        case ABGEZAL:
        case ABLTZAL:
                s->set.ireg |= 1<<REGLINK;
        case ABEQ:
        case ABGEZ:
        case ABGTZ:
        case ABLEZ:
        case ABLTZ:
        case ABNE:
                ar = 1;
                ad = 1;
                break;
        case ABFPT:
        case ABFPF:
                ad = 1;
                s->used.cc |= E_FCR;
                break;
        case ACMPEQD:
        case ACMPEQF:
        case ACMPGED:
        case ACMPGEF:
        case ACMPGTD:
        case ACMPGTF:
                ar = 1;
                s->set.cc |= E_FCR;
                p->mark |= FCMP;
                break;
        case AJMP:
                ar = 1;
                ad = 1;
                break;
        case AMOVB:
        case AMOVBU:
                sz = 1;
                ld = 1;
                break;
        case AMOVH:
        case AMOVHU:
                sz = 2;
                ld = 1;
                break;
        case AMOVF:
        case AMOVW:
        case AMOVWL:
        case AMOVWR:
                sz = 4;
                ld = 1;
                break;
        case AMOVD:
        case AMOVV:
        case AMOVVL:
        case AMOVVR:
                sz = 8;
                ld = 1;
                break;
        case ADIV:
        case ADIVU:
        case AMUL:
        case AMULU:
        case AREM:
        case AREMU:
                s->set.cc = E_HILO;
        case AADD:
        case AADDU:
        case AAND:
        case ANOR:
        case AOR:
        case ASGT:
        case ASGTU:
        case ASLL:
        case ASRA:
        case ASRL:
        case ASUB:
        case ASUBU:
        case AXOR:

        case AADDD:
        case AADDF:
        case AADDW:
        case ASUBD:
        case ASUBF:
        case ASUBW:
        case AMULF:
        case AMULD:
        case AMULW:
        case ADIVF:
        case ADIVD:
        case ADIVW:
                if(p->reg == NREG) {
                        if(p->to.type == D_REG || p->to.type == D_FREG)
                                p->reg = p->to.reg;
                        if(p->reg == NREG)
                                print("botch %P\n", p);
                }
                break;
        }

/*
 * flags based on 'to' field
 */
        c = p->to.class;
        if(c == 0) {
                c = aclass(&p->to) + 1;
                p->to.class = c;
        }
        c--;
        switch(c) {
        default:
                print("unknown class %d %D\n", c, &p->to);

        case C_ZCON:
        case C_SCON:
        case C_ADD0CON:
        case C_AND0CON:
        case C_ADDCON:
        case C_ANDCON:
        case C_UCON:
        case C_LCON:
        case C_NONE:
        case C_SBRA:
        case C_LBRA:
                break;

        case C_HI:
        case C_LO:
                s->set.cc |= E_HILO;
                break;
        case C_FCREG:
                s->set.cc |= E_FCR;
                break;
        case C_MREG:
                s->set.cc |= E_MCR;
                break;
        case C_ZOREG:
        case C_SOREG:
        case C_LOREG:
                c = p->to.reg;
                s->used.ireg |= 1<<c;
                if(ad)
                        break;
                s->size = sz;
                s->soffset = regoff(&p->to);

                m = ANYMEM;
                if(c == REGSB)
                        m = E_MEMSB;
                if(c == REGSP)
                        m = E_MEMSP;

                if(ar)
                        s->used.cc |= m;
                else
                        s->set.cc |= m;
                break;
        case C_SACON:
        case C_LACON:
                s->used.ireg |= 1<<REGSP;
                break;
        case C_SECON:
        case C_LECON:
                s->used.ireg |= 1<<REGSB;
                break;
        case C_REG:
                if(ar)
                        s->used.ireg |= 1<<p->to.reg;
                else
                        s->set.ireg |= 1<<p->to.reg;
                break;
        case C_FREG:
                /* do better -- determine double prec */
                if(ar) {
                        s->used.freg |= 1<<p->to.reg;
                        s->used.freg |= 1<<(p->to.reg|1);
                } else {
                        s->set.freg |= 1<<p->to.reg;
                        s->set.freg |= 1<<(p->to.reg|1);
                }
                if(ld && p->from.type == D_REG)
                        p->mark |= LOAD;
                break;
        case C_SAUTO:
        case C_LAUTO:
                s->used.ireg |= 1<<REGSP;
                if(ad)
                        break;
                s->size = sz;
                s->soffset = regoff(&p->to);

                if(ar)
                        s->used.cc |= E_MEMSP;
                else
                        s->set.cc |= E_MEMSP;
                break;
        case C_SEXT:
        case C_LEXT:
                s->used.ireg |= 1<<REGSB;
                if(ad)
                        break;
                s->size = sz;
                s->soffset = regoff(&p->to);

                if(ar)
                        s->used.cc |= E_MEMSB;
                else
                        s->set.cc |= E_MEMSB;
                break;
        }

/*
 * flags based on 'from' field
 */
        c = p->from.class;
        if(c == 0) {
                c = aclass(&p->from) + 1;
                p->from.class = c;
        }
        c--;
        switch(c) {
        default:
                print("unknown class %d %D\n", c, &p->from);

        case C_ZCON:
        case C_SCON:
        case C_ADD0CON:
        case C_AND0CON:
        case C_ADDCON:
        case C_ANDCON:
        case C_UCON:
        case C_LCON:
        case C_NONE:
        case C_SBRA:
        case C_LBRA:
                break;
        case C_HI:
        case C_LO:
                s->used.cc |= E_HILO;
                break;
        case C_FCREG:
                s->used.cc |= E_FCR;
                break;
        case C_MREG:
                s->used.cc |= E_MCR;
                break;
        case C_ZOREG:
        case C_SOREG:
        case C_LOREG:
                c = p->from.reg;
                s->used.ireg |= 1<<c;
                if(ld)
                        p->mark |= LOAD;
                s->size = sz;
                s->soffset = regoff(&p->from);

                m = ANYMEM;
                if(c == REGSB)
                        m = E_MEMSB;
                if(c == REGSP)
                        m = E_MEMSP;

                s->used.cc |= m;
                break;
        case C_SACON:
        case C_LACON:
                s->used.ireg |= 1<<REGSP;
                break;
        case C_SECON:
        case C_LECON:
                s->used.ireg |= 1<<REGSB;
                break;
        case C_REG:
                s->used.ireg |= 1<<p->from.reg;
                break;
        case C_FREG:
                /* do better -- determine double prec */
                s->used.freg |= 1<<p->from.reg;
                s->used.freg |= 1<<(p->from.reg|1);
                if(ld && p->to.type == D_REG)
                        p->mark |= LOAD;
                break;
        case C_SAUTO:
        case C_LAUTO:
                s->used.ireg |= 1<<REGSP;
                if(ld)
                        p->mark |= LOAD;
                if(ad)
                        break;
                s->size = sz;
                s->soffset = regoff(&p->from);

                s->used.cc |= E_MEMSP;
                break;
        case C_SEXT:
        case C_LEXT:
                s->used.ireg |= 1<<REGSB;
                if(ld)
                        p->mark |= LOAD;
                if(ad)
                        break;
                s->size = sz;
                s->soffset = regoff(&p->from);

                s->used.cc |= E_MEMSB;
                break;
        }

        c = p->reg;
        if(c != NREG) {
                if(p->from.type == D_FREG || p->to.type == D_FREG) {
                        s->used.freg |= 1<<c;
                        s->used.freg |= 1<<(c|1);
                } else
                        s->used.ireg |= 1<<c;
        }
        s->set.ireg &= ~(1<<REGZERO);           /* R0 cant be set */
}

/*
 * test to see if 2 instrictions can be
 * interchanged without changing semantics
 */
int
depend(Sch *sa, Sch *sb)
{
        ulong x;

        if(sa->set.ireg & (sb->set.ireg|sb->used.ireg))
                return 1;
        if(sb->set.ireg & sa->used.ireg)
                return 1;

        if(sa->set.freg & (sb->set.freg|sb->used.freg))
                return 1;
        if(sb->set.freg & sa->used.freg)
                return 1;

        /*
         * special case.
         * loads from same address cannot pass.
         * this is for hardware fifo's and the like
         */
        if(sa->used.cc & sb->used.cc & E_MEM)
                if(sa->p.reg == sb->p.reg)
                if(regoff(&sa->p.from) == regoff(&sb->p.from))
                        return 1;

        x = (sa->set.cc & (sb->set.cc|sb->used.cc)) |
                (sb->set.cc & sa->used.cc);
        if(x) {
                /*
                 * allow SB and SP to pass each other.
                 * allow SB to pass SB iff doffsets are ok
                 * anything else conflicts
                 */
                if(x != E_MEMSP && x != E_MEMSB)
                        return 1;
                x = sa->set.cc | sb->set.cc |
                        sa->used.cc | sb->used.cc;
                if(x & E_MEM)
                        return 1;
                if(offoverlap(sa, sb))
                        return 1;
        }

        return 0; 
}

int
offoverlap(Sch *sa, Sch *sb)
{

        if(sa->soffset < sb->soffset) {
                if(sa->soffset+sa->size > sb->soffset)
                        return 1;
                return 0;
        }
        if(sb->soffset+sb->size > sa->soffset)
                return 1;
        return 0;
}

/*
 * test 2 adjacent instructions
 * and find out if inserted instructions
 * are desired to prevent stalls.
 */
int
conflict(Sch *sa, Sch *sb)
{

        if(sa->set.ireg & sb->used.ireg)
                return 1;
        if(sa->set.freg & sb->used.freg)
                return 1;
        if(sa->set.cc & sb->used.cc)
                return 1;

        return 0;
}

int
compound(Prog *p)
{
        Optab *o;

        o = oplook(p);
        if(o->size != 4)
                return 1;
        if(p->to.type == D_REG && p->to.reg == REGSB)
                return 1;
        return 0;
}

void
dumpbits(Sch *s, Dep *d)
{
        int i;

        for(i=0; i<32; i++)
                if(d->ireg & (1<<i))
                        Bprint(&bso, " R%d", i);
        for(i=0; i<32; i++)
                if(d->freg & (1<<i))
                        Bprint(&bso, " F%d", i);
        for(i=0; i<32; i++)
                switch(d->cc & (1<<i)) {
                default:
                        break;
                case E_HILO:
                        Bprint(&bso, " HILO");
                        break;
                case E_FCR:
                        Bprint(&bso, " FCR");
                        break;
                case E_MCR:
                        Bprint(&bso, " MCR");
                        break;
                case E_MEM:
                        Bprint(&bso, " MEM%d", s->size);
                        break;
                case E_MEMSB:
                        Bprint(&bso, " SB%d", s->size);
                        break;
                case E_MEMSP:
                        Bprint(&bso, " SP%d", s->size);
                        break;
                }
}