#include <stdio.h>
#include <assert.h>
#include <string.h>
#include "ast.h"
#include "ssa.h"
#include "mips.h"
int reg_v0 = 2;
int reg_v1 = 3;
int memcpy_cnt;
static int save_pos[32];
static int used_reg[32];
void mips_prologue(void) {
CVList_t v;
CSList_t s;
printf(".data 0x10000000\n");
for (v = gvars; v; v = v->next)
{
CVar_t var = v->var;
printf("\t.align 2\n");
printf("_%s:\n", var->name);
var->start = -1;
if (var->initr)
{
CNode *initr = var->initr->chd;
assert(var->initr->rec.subtype == INITR_NORM);
switch (initr->ext.type->type)
{
case CINT:
printf("\t.word %ld\n", initr->ext.const_val);
break;
case CCHAR:
printf("\t.byte %ld\n", initr->ext.const_val);
break;
case CPTR:
{
CType_t ref = initr->ext.type->rec.ref;
printf("\t.word ");
switch (ref->type)
{
case CFUNC:
printf("%s\n", initr->rec.strval);
break;
case CCHAR:
printf("_str_%d\n", ((CSList_t)initr->ext.const_val)->id);
break;
default: assert(0);
}
}
break;
default: assert(0);
}
}
else
printf("\t.space %d\n", calc_size(var->type));
}
printf("\t.align 2\n");
for (s = cstrs; s; s = s->next)
{
printf("_str_%d:\n", s->id);
printf("\t.asciiz \"%s\"\n", s->str);
}
/* pre-calc done */
printf(".text\n");
}
void mips_load(int reg, COpr_t opr) {
CVar_t var = opr->spill->info.var;
CType_t type = opr->type;
if (type->type == CSTRUCT ||
type->type == CUNION ||
type->type == CARR)
{
if (var->loc > 0)
printf("\tla $%d, _%s\n", reg, var->name);
else
printf("\taddiu $%d, $sp, %d\n", reg, var->start);
}
else
{
const char *l = type->type == CCHAR ? "lb" : "lw";
if (var->loc > 0)
printf("\t%s $%d, _%s\n", l, reg, var->name);
else
printf("\t%s $%d, %d($sp)\t#%s\n", l, reg, var->start, var->name);
}
}
void mips_store(int reg, COpr_t opr) {
CVar_t var = opr->spill->info.var;
CType_t type = opr->type;
const char *l = type->type == CCHAR ? "sb" : "sw";
/* TODO: struct */
if (var->loc > 0)
printf("\t%s $%d, _%s\n", l, reg, var->name);
else if (opr->reg == -1)
printf("\t%s $%d, %d($sp)\t#%s\n", l, reg, var->start, var->name);
}
int mips_to_reg(COpr_t opr, int reg0) {
if (opr->kind == IMM)
{
printf("\tli $%d, %d\n", reg0, opr->info.imm);
return reg0;
}
else if (opr->kind == IMMS)
{
printf("\tla $%d, _str_%d\n", reg0, opr->info.cstr->id);
return reg0;
}
else if (opr->kind == IMMF)
{
printf("\tla $%d, _func_%s\n", reg0, opr->info.str);
return reg0;
}
if (opr->reg != -1)
return opr->reg;
mips_load(reg0, opr);
return reg0;
}
void mips_memcpy(void) {
printf("\tj _mem_cond%d\n", memcpy_cnt);
printf("_mem_loop%d:\n", memcpy_cnt);
printf("\tlw $5, 0($%d)\n", reg_v0);
printf("\tsw $5, 0($%d)\n", reg_v1);
printf("\taddiu $%d, $%d, 4\n", reg_v1, reg_v1);
printf("\taddiu $%d, $%d, 4\n", reg_v0, reg_v0);
printf("\taddiu $a0, $a0, -4\n");
printf("_mem_cond%d:\n", memcpy_cnt);
printf("\tbnez $a0, _mem_loop%d\n", memcpy_cnt);
memcpy_cnt++;
}
/* memcpy requires three arguments */
#define RESERVED_CALL_SIZE 12
void mips_space_alloc(void) {
int local_size = func->rec.func.local_size;
int arg_size = RESERVED_CALL_SIZE;
int bret_size = 0;
int tmp_size = 0;
int offset = 0;
int prev = 0;
int save_size = MAX_AVAIL_REGS * INT_SIZE;
CBlock_t p;
COList_t d;
CVar_t v;
for (d = defs; d; d = d->next)
{
COpr_t opr = d->opr;
assert(opr->par == opr);
if (opr->kind == TMP && opr->reg == -1)
{
int t = opr->type->type;
tmp_size += align_shift(tmp_size);
opr->info.var->start = tmp_size;
if (t == CSTRUCT || t == CUNION || t == CARR)
tmp_size += PTR_SIZE;
else if (t == CVOID)
tmp_size += INT_SIZE;
else
tmp_size += calc_size(opr->type);
}
}
for (p = entry; p; p = p->next)
{
CInst_t i, ih = p->insts;
for (i = ih->next; i != ih; i = i->next)
{
if (i->op == PUSH)
{
COpr_t arg = i->src1;
offset += align_shift(offset);
i->offset = offset;
if (arg->kind == IMM)
offset += INT_SIZE;
else if (arg->kind == IMMS)
offset += PTR_SIZE;
else if (arg->kind == IMMF)
offset += PTR_SIZE;
else
{
CType_t t = arg->type;
if (t->type == CARR)
offset += PTR_SIZE;
else
offset += calc_size(t);
}
}
else if (i->op == CALL)
{
CType_t rt = i->dest->type;
if (offset > arg_size)
arg_size = offset;
offset = 0;
if (rt->type == CSTRUCT || rt->type == CUNION)
{
bret_size += align_shift(bret_size);
i->bret = bret_size;
bret_size += calc_size(rt);
}
else i->bret = -1;
}
}
}
prev += arg_size;
prev += align_shift(prev);
/* adjust offset for local variables */
for (v = func->rec.func.local; v; v = v->next)
v->start += prev;
prev += local_size;
prev += align_shift(prev);
{
int i;
for (i = 0; i < MAX_AVAIL_REGS; i++)
save_pos[avail_regs[i]] = prev + i * INT_SIZE;
save_pos[30] = save_size;
save_size += INT_SIZE;
}
prev += save_size;
/* adjust offset for spilled temporaries */
for (d = defs; d; d = d->next)
{
COpr_t opr = d->opr;
assert(opr->par == opr);
if (opr->kind == TMP && opr->reg == -1)
opr->info.var->start += prev;
}
prev += tmp_size;
prev += align_shift(prev);
for (p = entry; p; p = p->next)
{
CInst_t i, ih = p->insts;
for (i = ih->next; i != ih; i = i->next)
if (i->op == CALL && i->bret != -1)
i->bret += prev;
}
prev += bret_size;
prev += align_shift(prev);
prev += 4; /* return address */
for (v = func->rec.func.params; v; v = v->next)
v->start += prev; /* skip the whole frame to reach args */
func->rec.func.frame_size = prev;
}
void mips_func_begin(void) {
int fsize = func->rec.func.frame_size;
if (fsize < 0x8000)
printf("\taddiu $sp, $sp, -%d\n", fsize);
else
{
printf("\tli $%d, %d\n", reg_v0, -fsize);
printf("\taddu $sp, $sp, $%d\n", reg_v0);
}
printf("\tsw $31, %d($sp) #%s\n", fsize - 4, func->name);
}
void mips_func_end(void) {
int fsize = func->rec.func.frame_size;
printf("_ret_%s:\n", func->name);
printf("\tlw $31, %d($sp)\n", fsize - 4);
if (fsize < 0x8000)
printf("\taddiu $sp, $sp, %d\n", fsize);
else
{
printf("\tli $%d, %d\n", reg_v0, fsize);
printf("\taddu $sp, $sp, $%d\n", reg_v0);
}
printf("\tjr $31\n");
}
#define IN_IMM(x) (-0x8000 <= (x) && (x) < 0x8000)
void mips_generate(void) {
CBlock_t p;
CType_t rt = func->rec.func.ret;
/* int arg_cnt = 0; */
mips_space_alloc();
if (strcmp(func->name, "main"))
printf("_func_%s:\n",func->name);
else
printf("main:\n");
mips_func_begin();
for (p = entry; p; p = p->next)
{
if (p->ref) printf("_L%d:\n", p->id + gbbase);
CInst_t i, ih = p->insts;
const char *bop;
for (i = ih->next; i != ih; i = i->next)
{
int flag = 1, swap, rimm;
if (i->dest && i->dest->reg == -2 && i->dest->kind == TMP && i->op != CALL)
continue;
printf("# ");
cinst_print(stdout, i);
switch (i->op)
{
case LOAD:
if (i->dest->kind == VAR &&
i->dest->reg > 0) /* &&
i->dest->info.var->loc >= 0) */
mips_load(i->dest->reg, i->dest);
break;
case MOVE:
{
/* TODO: struct */
int rs;
int rd = i->dest->reg;
CType_t type = i->dest->type;
if ((type->type == CSTRUCT || type->type == CUNION) && i->dest->kind == VAR)
{
rs = mips_to_reg(i->src1, reg_v0);
/* assert(i->dest->kind == VAR); */
printf("\tsw $%d, 4($sp)\n", rs);
if (rd < 0) rd = reg_v0;
mips_load(rd, i->dest);
printf("\tsw $%d, 0($sp)\n", rd);
printf("\tli $%d, %d\n", reg_v0, calc_size(type));
printf("\tsw $%d, 8($sp)\n", reg_v0);
/* don't need to save current registers because
* memcpy doesn't interfere with them */
printf("\tjal _func_memcpy\n");
}
else
{
if (i->dest->reg > 0 && i->src1->kind == IMM)
{
printf("\tli $%d %d\n", i->dest->reg, i->src1->info.imm);
}
else
{
rs = mips_to_reg(i->src1, reg_v0);
if (rd > 0)
{
if (rd != rs) printf("\tmove $%d $%d\n", rd, rs);
}
else
rd = rs;
}
if (i->dest->reg == -1 ||
(i->dest->kind == VAR &&
i->dest->info.var->loc > 0))
mips_store(rd, i->dest);
}
}
break;
case BEQZ:
{
int rs = mips_to_reg(i->src1, reg_v0);
printf("\tbeqz $%d, _L%d\n", rs, i->dest->info.imm);
}
break;
case BNEZ:
{
int rs = mips_to_reg(i->src1, reg_v0);
printf("\tbnez $%d, _L%d\n", rs, i->dest->info.imm);
}
break;
case GOTO:
printf("\tj _L%d\n", i->dest->info.imm);
break;
case ARR:
{
CType_t type = i->src1->type;
int arr = mips_to_reg(i->src1, reg_v0);
int rd;
const char *l;
if (type->type == CARR)
type = type->rec.arr.elem;
else
type = type->rec.ref;
l = type->type == CCHAR ? "lb" : "lw";
if (i->src2->kind == IMM)
{
int index = i->src2->info.imm;
rd = i->dest->reg;
if (rd < 0) rd = reg_v1;
printf("\t%s $%d, %d($%d)\n", l, rd, index, arr);
}
else
{
int index = mips_to_reg(i->src2, reg_v1);
rd = i->dest->reg;
if (rd < 0) rd = reg_v0;
printf("\taddu $%d, $%d, $%d\n", reg_v1, arr, index);
printf("\t%s $%d, 0($%d)\n", l, rd, reg_v1);
}
if (i->dest->reg == -1 || i->dest->kind == VAR)
mips_store(rd, i->dest);
}
break;
case WARR:
{
CType_t type = i->wtype;
int arr = mips_to_reg(i->dest, reg_v1);
const char *s;
int rs;
/*
if (type->type == CARR)
type = type->rec.arr.elem;
else
type = type->rec.ref;
*/
s = type->type == CCHAR ? "sb" : "sw";
if (type->type == CSTRUCT || type->type == CUNION)
{
if (i->src2->kind == IMM)
printf("\taddiu $%d, $%d, %d\n", reg_v1, arr, i->src2->info.imm);
else
{
int index = mips_to_reg(i->src2, reg_v0);
printf("\taddu $%d, $%d, $%d\n", reg_v1, arr, index);
}
rs = mips_to_reg(i->src1, reg_v0);
printf("\tmove $%d, $%d\n", reg_v0, rs);
printf("\tli $a0, %d\n", calc_size(type));
mips_memcpy();
}
else
{
if (i->src2->kind == IMM)
{
rs = mips_to_reg(i->src1, reg_v0);
if (type->type == CSTRUCT || type->type == CUNION)
{
printf("\tmove $%d, $%d\n", reg_v0, rs);
printf("\taddiu $%d, $%d, $%d\n", reg_v1, arr, i->src2->info.imm);
printf("\tli $a0, %d\n", calc_size(type));
mips_memcpy();
}
else
printf("\t%s $%d, %d($%d)\n", s, rs, i->src2->info.imm, arr);
}
else
{
int index = mips_to_reg(i->src2, reg_v0);
printf("\taddu $%d, $%d, $%d\n", reg_v0, arr, index);
rs = mips_to_reg(i->src1, reg_v1);
printf("\t%s $%d, 0($%d)\n", s, rs, reg_v0);
}
}
}
break;
case PUSH:
{
int rs = mips_to_reg(i->src1, reg_v0);
/*
if (arg_cnt < 4)
{
printf("\tmove $%d, $%d\n", arg_cnt + 4, rs);
}
else
{
*/
CType_t type = i->src1->type;
if (type && (type->type == CSTRUCT || type->type == CUNION))
{
printf("\taddiu $%d, $sp, %d\n", reg_v1, i->offset);
printf("\tmove $%d, $%d\n", reg_v0, rs);
printf("\tli $a0, %d\n", calc_size(type));
mips_memcpy();
}
else
printf("\tsw $%d, %d($sp) # push\n", rs, i->offset);
/* }
arg_cnt++; */
}
break;
case CALL:
{
COList_t p;
int rd = i->dest->reg;
int j;
memset(used_reg, 0, sizeof used_reg);
if (rt->type == CSTRUCT || rt->type == CUNION)
used_reg[30] = 1; /* save $fp */
for (p = defs; p; p = p->next)
{
COpr_t opr = p->opr;
if (opr->reg != -1 &&
(opr->kind == TMP || opr->info.var->loc <= 0) &&
overlap_with_beg(opr, i->id))
used_reg[opr->reg] = 1;
}
for (j = 0; j < 32; j++)
if (used_reg[j])
printf("\tsw $%d, %d($sp) # save reg\n", j, save_pos[j]);
if (i->bret != -1)
{
if (i->dest->kind == TMP)
printf("\taddiu $fp, $sp, %d\n", i->bret);
else
mips_load(30, i->dest);
}
if (i->src1->kind == IMMF)
printf("\tjal %s%s\n",
strcmp(i->src1->info.str, "main") ? "_func_" : "",
i->src1->info.str);
else
printf("\tjalr $%d\n", mips_to_reg(i->src1, reg_v0));
for (j = 0; j < 32; j++)
if (used_reg[j])
printf("\tlw $%d, %d($sp) # load reg\n", j, save_pos[j]);
for (p = defs; p; p = p->next)
{
COpr_t opr = p->opr;
if (opr->reg != -1 &&
opr->kind == VAR &&
opr->info.var->loc > 0 &&
overlap_with_beg(opr, i->id))
mips_load(opr->reg, opr);
}
if (rd != -2)
{
if (i->bret != -1 && i->dest->kind == VAR)
{
if (rd == -1)
rd = mips_to_reg(i->dest, reg_v1);
if (reg_v1 != rd)
printf("\tmove $%d, $%d\n", reg_v1, rd);
printf("\tli $a0, %d\n", calc_size(i->dest->type));
mips_memcpy();
}
else
{
if (rd != -1)
printf("\tmove $%d, $%d\n", rd, reg_v0);
if (i->dest->reg == -1 || i->dest->kind == VAR)
mips_store(reg_v0, i->dest);
}
}
}
break;
case RET:
{
if (i->src1)
{
if (rt->type == CSTRUCT || rt->type == CUNION)
{
int rs = mips_to_reg(i->src1, reg_v0);
assert(i->src1->kind == VAR || i->src1->kind == TMP);
printf("\tsw $%d, 4($sp)\n", rs);
printf("\tsw $fp, 0($sp)\n");
printf("\tli $%d, %d\n", reg_v0, calc_size(rt));
printf("\tsw $%d, 8($sp)\n", reg_v0);
printf("\tjal _func_memcpy\n");
printf("\tmove $%d, $fp\n", reg_v0);
}
else
{
if (i->src1->reg != -1)
{
if (i->src1->kind == IMM)
printf("\tli $%d, %d\n", reg_v0, i->src1->info.imm);
else
printf("\tmove $%d, $%d\n", reg_v0, mips_to_reg(i->src1, reg_v1));
}
else
{
mips_to_reg(i->src1, reg_v0);
}
}
}
printf("\tj _ret_%s\n", func->name);
}
break;
case ADDR:
{
assert(i->src1->kind == VAR ||
i->src1->kind == IMMF);
int rd = i->dest->reg;
if (rd < 0) rd = reg_v0;
if (i->src1->kind == IMMF)
printf("\tla $%d, %s\n", rd, i->src1->info.str);
else
{
CVar_t var = i->src1->spill->info.var;
if (var->loc > 0)
printf("\tla $%d, _%s\n", rd, var->name);
else
printf("\taddiu $%d, $sp, %d\n", rd, var->start);
if (i->dest->reg == -1 || i->dest->kind == VAR)
mips_store(rd, i->dest);
}
}
break;
default: flag = 0;
}
if (flag) continue;
flag = 1;
swap = rimm = 0;
switch (i->op)
{
case MUL: bop = "mul"; rimm = 1; break;
case DIV: bop = "divu"; rimm = 1; break;
case MOD: bop = "rem"; rimm = 1; break;
case ADD: bop = "addu"; rimm = swap = 1; break;
case SUB: bop = "subu"; rimm = 1; break;
case SHL: bop = "sllv"; rimm = 1; break;
case SHR: bop = "srlv"; rimm = 1; break;
case AND: bop = "and"; rimm = swap = 1; break;
case XOR: bop = "xor"; rimm = swap = 1; break;
case OR: bop = "or"; rimm = swap = 1; break;
case NOR: bop = "nor"; rimm = 1; break;
case EQ: bop = "seq"; rimm = 1; break;
case NE: bop = "sne"; rimm = 1; break;
case LT: bop = "slt"; rimm = 1; break;
case GT: bop = "sgt"; rimm = 1; break;
case LE: bop = "sle"; rimm = 1; break;
case GE: bop = "sge"; rimm = 1; break;
default: flag = 0;
}
if (flag)
{
int rs, rt;
int rd = i->dest->reg;
if (rd < 0) rd = reg_v0;
if (rimm)
{
COpr_t t;
if (swap && i->src1->kind == IMM)
{
t = i->src1;
i->src1 = i->src2;
i->src2 = t;
}
if (i->src2->kind == IMM && IN_IMM(i->src2->info.imm))
{
switch (i->op)
{
case ADD: bop = "addiu"; break;
case AND: bop = "andi"; break;
case XOR: bop = "xori"; break;
case OR: bop = "ori"; break;
case SHL: bop = "sll"; break;
case SHR: bop = "srl"; break;
default: ;
}
rs = mips_to_reg(i->src1, reg_v0);
printf("\t%s $%d, $%d, %d\n",
bop, rd, rs, i->src2->info.imm);
}
else rimm = 0;
}
if (!rimm)
{
rs = mips_to_reg(i->src1, reg_v0);
rt = mips_to_reg(i->src2, reg_v1);
printf("\t%s $%d, $%d, $%d\n", bop, rd, rs, rt);
}
if (i->dest->reg == -1 || i->dest->kind == VAR)
mips_store(rd, i->dest);
continue;
}
if (i->op == NEG)
{
int rs = mips_to_reg(i->src1, reg_v0);
int rd = i->dest->reg;
if (rd < 0) rd = reg_v0;
printf("\tnegu $%d, $%d\n", rd, rs);
if (i->dest->reg == -1 || i->dest->kind == VAR)
mips_store(rd, i->dest);
}
}
}
mips_func_end();
}