ref: be91e9ff3d8d1d06cc92490d7bc1786823068d7c
dir: /cc2.old/cgen.c/
#include <assert.h>
#include <inttypes.h>
#include <stdlib.h>
#include "../inc/cc.h"
#include "cc2.h"
static Symbol retlabel = {
.kind = LABEL
};
static Node *reguse[NPAIRS];
static uint8_t upper[] = {[DE] = D, [HL] = H, [BC] = B, [IY] = IYH};
static uint8_t lower[] = {[DE] = E, [HL] = L, [BC] = C, [IY] = IYL};
static uint8_t pair[] = {
[A] = A,
[H] = HL, [L] = HL, [HL] = HL,
[B] = BC, [C] = BC, [BC] = BC,
[D] = DE, [E] = DE, [DE] = DE,
[IYL] = IY, [IYH] = IY, [IY] = IY
};
static Node regs[] = {
[E] = {
.op = REG,
.reg = E
},
[D] = {
.op = REG,
.reg = D
},
[H] = {
.op = REG,
.reg = H
},
[L] = {
.op = REG,
.reg = L
},
[C] = {
.op= REG,
.reg = C
},
[B] = {
.op= REG,
.reg = B
},
[A] = {
.op= REG,
.reg = A
},
[IYL] = {
.op = REG,
.reg = IYL
},
[IYH] = {
.op = REG,
.reg = IYH
},
[DE] = {
.op = REG,
.reg = DE
},
[HL] = {
.op = REG,
.reg = HL
},
[BC] = {
.op = REG,
.reg = BC
},
[IX] = {
.op = REG,
.reg = IX
},
[IY] = {
.op = REG,
.reg = IY
},
[SP] = {
.op = REG,
.reg = SP
}
};
static void moveto(Node *np, uint8_t reg);
static void
allocreg(Node *np)
{
static uint8_t reg8[] = {A, B, C, D, E, H, L, IYL, IY, 0};
static uint8_t reg16[] = {BC, DE, IY, 0};
Node *r;
uint8_t *ary, *bp, c;
switch (np->type.size) {
case 1:
ary = reg8;
break;
case 2:
ary = reg16;
break;
default:
abort();
}
for (bp = ary; c = *bp; ++bp) {
r = reguse[c];
if (!r || r->used) {
moveto(np, c);
return;
}
}
/* TODO: What to do here? */
abort();
}
static void
spill(uint8_t reg)
{
Node *np, *r;
Symbol *sym;
uint8_t p, h, l;
if ((np = reguse[reg]) == NULL)
return;
sym = np->sym;
r = ®s[reg];
switch (np->type.size) {
case 1:
if (sym) {
code(LDL, np, r);
np->op = sym->kind;
} else {
allocreg(np);
}
break;
default:
abort();
}
reguse[reg] = NULL;
p = pair[reg];
l = lower[p];
h = upper[p];
if (reg >= NREGS)
reguse[l] = reguse[h] = NULL;
else if (!reguse[l] && !reguse[h])
reguse[p] = NULL;
}
static void
moveto(Node *np, uint8_t reg)
{
Node *r = ®s[reg], *u = reguse[reg];
char op = np->op;
if (u) {
Symbol *sym = np->sym;
if (sym && sym == u->sym)
return;
else if (!np->used)
spill(reg);
}
switch (np->type.size) {
case 1:
switch (op) {
case MEM:
case AUTO:
code(LDL, r, np);
break;
case CONST:
case INDEX:
code(LDI, r, np);
break;
case REG:
code(MOV, r, np);
break;
default:
abort();
}
break;
case 2:
switch (op) {
case CONST:
code(LDL, r, np);
break;
case AUTO:
code(LDL, ®s[lower[reg]], np);
code(LDH, ®s[upper[reg]], np);
break;
default:
abort();
}
reguse[upper[reg]] = reguse[lower[reg]] = np;
break;
default:
abort();
}
reguse[pair[reg]] = reguse[reg] = np;
np->op = REG;
np->reg = reg;
}
static void
accum(Node *np)
{
switch (np->type.size) {
case 1:
moveto(np, A);
break;
case 2:
moveto(np, HL);
break;
default:
abort();
}
}
static void
index(Node *np)
{
Node *u = reguse[HL];
Symbol *sym;
if (u && u->sym) {
if (u->op == INDEX && np->sym == u->sym) {
np->op = INDEX;
return;
} else {
spill(HL);
}
}
code(LDI, ®s[HL], np);
if (sym = np->sym)
sym->index = 1;
np->op = INDEX;
reguse[HL] = reguse[H] = reguse[L] = np;
}
static void
move(Node *np, Node *parent)
{
assert(np->type.size == 1);
switch (parent->op) {
case OASSIG:
allocreg(np);
break;
case ONEG:
case OCPL:
switch (np->op) {
case REG:
if (np->reg == A)
break;
/* PASSTHROUGH */
case PAR:
case AUTO:
case CONST:
case MEM:
case INDEX:
accum(np);
break;
default:
abort();
}
break;
case OADD:
case OSUB:
case OBAND:
case OBOR:
case OBXOR:
switch (np->op) {
case PAR:
case AUTO:
case CONST:
case INDEX:
case REG:
return;
case MEM:
index(np);
break;
default:
abort();
}
break;
default:
abort();
}
}
static void
conmute(Node *np)
{
Node *p, *q;
p = np->left;
q = np->right;
np->left = q;
np->right = p;
}
static void
add(Node *np)
{
Node *lp = np->left, *rp = np->right, *a;
uint8_t op;
switch (np->type.size) {
case 1:
a = reguse[A];
if (a == lp)
goto update_a;
if (a == rp)
goto conmute1;
if (lp->op == CONST) {
accum(rp);
goto conmute1;
}
accum(lp);
goto update_a;
conmute1:
conmute(np);
lp = np->left, rp = np->right;
update_a:
move(rp, np);
switch (np->op) {
case OADD:
op = ADD;
break;
case OSUB:
op = SUB;
break;
case OBAND:
op = AND;
break;
case OBOR:
op = OR;
break;
case OBXOR:
op = XOR;
break;
default:
abort();
}
code(op, lp, rp);
lp->used = rp->used = 1;
np->op = REG;
np->reg = A;
reguse[A] = np;
break;
default:
abort();
}
}
static void
assign(Node *np)
{
Node *lp = np->left, *rp = np->right;
Symbol *sym = lp->sym;
switch (np->type.size) {
case 1:
switch (lp->op) {
case MEM:
if (sym && sym->index)
lp->op = INDEX;
/* PASSTROUGH */
case INDEX:
case AUTO:
if (rp->op != REG)
move(rp, np);
lp->reg = rp->reg;
code(LDL, lp, rp);
break;
case REG:
code(MOV, lp, rp);
break;
default:
abort();
}
break;
default:
abort();
}
np->op = REG;
np->reg = lp->reg;
np->sym = rp->sym = lp->sym;
np->used = rp->used = lp->used = 1;
}
static void
ret(Node *np)
{
static Node retnode = {
.op = LABEL,
.sym = &retlabel
};
if (np->left)
accum(np->left);
code(JP, &retnode, NULL);
}
static void
nop(Node *np)
{
}
static void
cpl(Node *np)
{
Node *lp = np->left;
uint8_t op;
switch (np->type.size) {
case 1:
move(lp, np);
switch (np->op) {
case OCPL:
op = CPL;
break;
case ONEG:
op = NEG;
break;
default:
abort();
}
code(op, lp, NULL);
lp->used = 1;
np->sym = lp->sym;
np->reg = lp->reg;
np->op = REG;
reguse[A] = np;
break;
default:
abort();
}
}
static void
cast(Node *np)
{
Node *lp = np->left;
uint8_t reg;
if (lp->type.size != np->type.size)
abort();
lp->used = 1;
np->sym = lp->sym;
if ((np->op = lp->op) == REG) {
reg = lp->reg;
np->reg = reg;
reguse[pair[reg]] = reguse[reg] = np;
}
}
static void (*opnodes[])(Node *) = {
[OADD] = add,
[OSUB] = add,
[OASSIG] = assign,
[ORET] = ret,
[MEM] = nop,
[REG] = nop,
[AUTO] = nop,
[CONST] = nop,
[PAR] = nop,
[OBOR] = add,
[OBAND] = add,
[OBXOR] = add,
[OCPL] = cpl,
[ONEG] = cpl,
[OCAST] = cast
};
static void
cgen(Node *np)
{
Node *lp, *rp;
if (!np)
return;
if (np->addable >= ADDABLE)
return;
lp = np->left;
rp = np->right;
if (!lp) {
cgen(rp);
} else if (!rp) {
cgen(lp);
} else {
Node *p, *q;
if (lp->complex > rp->complex)
p = lp, q = rp;
else
p = rp, q = lp;
cgen(p);
cgen(q);
}
(*opnodes[np->op])(np);
}
void
generate(void)
{
uint8_t size = curfun->u.f.locals;
static short id = 1000;
Node **stmt, *np;
retlabel.id = id++;
code(PUSH, NULL, ®s[IX]);
code(MOV, ®s[IX], ®s[SP]);
if (size > 6) {
code(MOV, ®s[HL], imm(-size));
code(ADD, ®s[HL], ®s[SP]);
code(MOV, ®s[SP], ®s[HL]);
} else {
for (; size != 0; size-= 2)
code(PUSH, NULL, ®s[HL]);
}
for (stmt = curfun->u.f.body; np = *stmt; ++stmt)
cgen(np);
code(MOV, ®s[SP], ®s[IX]);
retlabel.u.pc = pc;
pc->label = &retlabel;
code(POP, ®s[IX], NULL);
code(RET, NULL, NULL);
}
/*
* This is strongly influenced by
* http://plan9.bell-labs.com/sys/doc/compiler.ps (/sys/doc/compiler.ps)
* calculate addresability as follows
* AUTO => 11 value+fp
* REGISTER => 13 register
* STATIC => 12 (value)
* CONST => 20 $value
*/
Node *
genaddable(Node *np)
{
Node *lp, *rp;
if (!np)
return np;
np->complex = 0;
np->addable = 0;
lp = np->left;
rp = np->right;
switch (np->op) {
case AUTO:
np->addable = 11;
break;
case REG:
np->addable = 13;
break;
case MEM:
np->addable = 12;
break;
case CONST:
np->addable = 20;
break;
default:
if (lp)
genaddable(lp);
if (rp)
genaddable(rp);
break;
}
if (np->addable > 10)
return np;
if (lp)
np->complex = lp->complex;
if (rp) {
int8_t d = np->complex - rp->complex;
if (d == 0)
++np->complex;
else if (d < 0)
np->complex = rp->complex;
}
if (np->complex == 0)
++np->complex;
return np;
}
void
addable(void)
{
apply(genaddable);
}