ref: 7761303503062221973c8bd9bad4cb019cebe7f6
dir: /cc1/expr.c/
#include <inttypes.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "../inc/cc.h"
#include "cc1.h"
extern Symbol *zero, *one;
Node *expr(void);
static Node *
promote(Node *np)
{
Type *tp;
unsigned r;
tp = np->type;
r = tp->n.rank;
if (r > RANK_UINT || tp == inttype || tp == uinttype)
return np;
tp = (r == RANK_UINT) ? uinttype : inttype;
return node(OCAST, tp, np, NULL);
}
static void
typeconv(Node **p1, Node **p2)
{
Type *tp1, *tp2;
Node *np1, *np2;
int n;
np1 = promote(*p1);
np2 = promote(*p2);
tp1 = np1->type;
tp2 = np2->type;
if (tp1 != tp2) {
if ((n = tp1->n.rank - tp2->n.rank) > 0)
np2 = node(OCAST, tp1, np2, NULL);
else if (n < 0)
np1 = node(OCAST, tp2, np1, NULL);
}
*p1 = np1;
*p2 = np2;
}
static void
chklvalue(Node *np, Type *tp)
{
if (!np->lvalue)
error("lvalue required in operation");
if (np->type == voidtype)
error("invalid use of void expression");
}
Node *
eval(Node *np)
{
Node *p;
if (!np)
return NULL;
if (np->op != OAND && np->op != OOR)
return np;
p = node(OCOLON, inttype, constnode(one), constnode(zero));
return node(OASK, inttype, np, p);
}
static Node *
integerop(char op, Node *lp, Node *rp)
{
lp = eval(lp);
rp = eval(rp);
if (BTYPE(lp) != INT || BTYPE(rp) != INT)
error("operator requires integer operands");
typeconv(&lp, &rp);
return simplify(op, lp->type, lp, rp);
}
static Node *
numericaluop(char op, Node *np)
{
np = eval(np);
switch (BTYPE(np)) {
case INT:
case FLOAT:
if (op == OADD)
return np;
return usimplify(op, np->type, np);
default:
error("unary operator requires integer operand");
}
}
static Node *
integeruop(char op, Node *np)
{
np = eval(np);
if (BTYPE(np) != INT)
error("unary operator requires integer operand");
return usimplify(op, np->type, np);
}
static Node *
decay(Node *np)
{
Type *tp = np->type;
if (tp->op == ARY)
tp = tp->type;
return node(OADDR, mktype(tp, PTR, 0, NULL), np, NULL);
}
/*
* Convert a Node to a type
*/
Node *
convert(Node *np, Type *tp, char iscast)
{
if (eqtype(np->type, tp))
return np;
switch (BTYPE(np)) {
case ENUM:
case INT:
case FLOAT:
switch (tp->op) {
case PTR:
if (!iscast || BTYPE(np) == FLOAT)
return NULL;
/* PASSTHROUGH */
case INT:
case FLOAT:
case ENUM:
case VOID:
break;
default:
return NULL;
}
break;
case PTR:
switch (tp->op) {
case ENUM: /* TODO: allow p = 0 */
case INT:
case VOID:
if (!iscast)
return NULL;;
break;
case PTR:
if (iscast ||
tp == pvoidtype ||
np->type == pvoidtype) {
/* TODO:
* we assume conversion between pointers
* do not need any operation, but due to
* alignment problems that may be false
*/
np->type = tp;
return np;
}
default:
return NULL;
}
default:
return NULL;
}
return node(OCAST, tp, np, NULL);
}
static Node *
parithmetic(char op, Node *lp, Node *rp)
{
Type *tp;
Node *size;
tp = lp->type;
size = sizeofnode(tp->type);
if (BTYPE(rp) == ARY)
rp = decay(rp);
if (op == OSUB && BTYPE(rp) == PTR) {
if (tp != rp->type)
goto incorrect;
lp = node(OSUB, inttype, lp, rp);
return node(ODIV, inttype, lp, size);
}
if (BTYPE(rp) != INT)
goto incorrect;
rp = node(OCAST, tp, promote(rp), NULL);
rp = node(OMUL, tp, rp, size);
return node(op, tp, lp, rp);
incorrect:
error("incorrect arithmetic operands");
}
static Node *
arithmetic(char op, Node *lp, Node *rp)
{
lp = eval(lp);
rp = eval(rp);
switch (BTYPE(lp)) {
case INT:
case FLOAT:
switch (BTYPE(rp)) {
case INT:
case FLOAT:
typeconv(&lp, &rp);
break;
case ARY:
rp = decay(rp);
case PTR:
if (op == OADD || op == OSUB)
return parithmetic(op, rp, lp);
default:
goto incorrect;
}
break;
case ARY:
lp = decay(lp);
case PTR:
return parithmetic(op, lp, rp);
default:
incorrect:
error("incorrect arithmetic operands");
}
return simplify(op, lp->type, lp, rp);
}
static Node *
pcompare(char op, Node *lp, Node *rp)
{
switch (BTYPE(rp)) {
case INT:
if (rp->symbol && rp->sym->u.i == 0)
rp = node(OCAST, pvoidtype, rp, NULL);
break;
case PTR:
if (lp->type != rp->type)
warn("comparision between different pointer types");
break;
default:
error("incompatibles type in comparision");
}
return node(op, lp->type, lp, rp);
}
static Node *
compare(char op, Node *lp, Node *rp)
{
lp = eval(lp);
rp = eval(rp);
switch (BTYPE(lp)) {
case INT: case FLOAT:
switch (BTYPE(lp)) {
case INT:
case FLOAT:
typeconv(&lp, &rp);
break;
case ARY:
case FTN:
rp = decay(rp);
case PTR:
return pcompare(op, rp, lp);
default:
goto nocompat;
}
break;
case ARY: case FTN:
lp = decay(lp);
case PTR:
return pcompare(op, lp, rp);
default:
nocompat:
error("incompatibles type in comparision");
}
return simplify(op, inttype, lp, rp);
}
Node *
negate(Node *np)
{
unsigned op;
switch (np->op) {
case OAND: op = OOR; break;
case OOR: op = OAND; break;
case OEQ: op = ONE; break;
case ONE: op = OEQ; break;
case OLT: op = OGE; break;
case OGE: op = OLT; break;
case OLE: op = OGT; break;
case OGT: op = OLE; break;
default:
abort();
}
np->op = op;
return np;
}
bool
isnodecmp(int op)
{
switch (op) {
case OEQ:
case ONE:
case OLT:
case OGE:
case OLE:
case OGT:
return 1;
default:
return 0;
}
}
static Node *
exp2cond(Node *np, char neg)
{
if (isnodecmp(np->op))
return (neg) ? negate(np) : np;
return compare(ONE ^ neg, np, constnode(zero));
}
static Node *
logic(char op, Node *lp, Node *rp)
{
lp = exp2cond(lp, 0);
rp = exp2cond(rp, 0);
return simplify(op, inttype, lp, rp);
}
static Node *
field(Node *np)
{
Symbol *sym;
switch (BTYPE(np)) {
case STRUCT: case UNION:
setnamespace(np->type->ns);
next();
if (yytoken != IDEN)
unexpected();
if ((sym = yylval.sym) == NULL)
error("incorrect field in struct/union");
next();
return node(OFIELD, sym->type, varnode(sym), np);
default:
error("struct or union expected");
}
}
static Node *
array(Node *lp, Node *rp)
{
Type *tp;
if (BTYPE(lp) != INT && BTYPE(rp) != INT)
error("array subscript is not an integer");
lp = arithmetic(OADD, lp, rp);
tp = lp->type;
if (tp->op != PTR)
error("subscripted value is neither array nor pointer nor vector");
lp = node(OPTR, tp->type, lp, NULL);
lp->lvalue = 1;
return lp;
}
Node *
iszero(Node *np)
{
if (isnodecmp(np->op))
return np;
return compare(ONE, np, constnode(zero));
}
static Node *
assignop(char op, Node *lp, Node *rp)
{
switch (BTYPE(rp)) {
case FTN:
case ARY:
rp = decay(rp);
/* PASSTHROUGH */
default:
if ((rp = convert(rp, lp->type, 0)) == NULL)
error("incompatible types when assigning");
}
return node(op, lp->type, lp, rp);
}
static Node *
incdec(Node *np, char op)
{
Type *tp = np->type;
Node *inc;
chklvalue(np, np->type);
switch (BTYPE(np)) {
case PTR:
if (!tp->defined)
error("invalid use of indefined type");
inc = sizeofnode(tp->type);
break;
case INT:
case FLOAT:
inc = constnode(one);
break;
default:
error("incorrect type in arithmetic operation");
}
return arithmetic(op, np, inc);
}
static Node *
address(char op, Node *np)
{
if (!np->lvalue)
error("lvalue required in unary expression");
if (np->symbol && (np->sym->flags & ISREGISTER))
error("address of register variable '%s' requested", yytext);
return node(op, mktype(np->type, PTR, 0, NULL), np, NULL);
}
static Node *
content(char op, Node *np)
{
switch (BTYPE(np)) {
case ARY: case FTN:
np = decay(np);
case PTR:
np = node(op, np->type->type, np, NULL);
np->lvalue = 1;
return np;
default:
error("invalid argument of unary '*'");
}
}
static Node *
negation(char op, Node *np)
{
switch (BTYPE(np)) {
case FTN:
case ARY:
np = decay(np);
case INT:
case FLOAT:
case PTR:
return exp2cond(np, 1);
default:
error("invalid argument of unary '!'");
}
}
/*************************************************************
* grammar functions *
*************************************************************/
static Node *
primary(void)
{
Node *np;
switch (yytoken) {
case CONSTANT:
np = constnode(yylval.sym);
next();
break;
case IDEN:
if (!(yylval.sym->flags & ISDEFINED)) {
yylval.sym->type = inttype;
yylval.sym->flags |= ISDEFINED;
error("'%s' undeclared", yytext);
}
yylval.sym->flags |= ISUSED;
np = varnode(yylval.sym);
next();
break;
case '(':
next();
np = expr();
expect(')');
break;
default:
unexpected();
}
return np;
}
static Node *assign(void);
static Node *
arguments(Node *np)
{
Node *par;
Type *tp = np->type;
if (tp->op == PTR && tp->type->op == FTN) {
np = content(OPTR, np);
tp = np->type;
}
if (tp->op != FTN)
error("function or function pointer expected");
/* TODO: implement function calls */
abort();
expect('(');
if (accept(')'))
return np;
do {
if ((par = eval(assign())) == NULL)
unexpected();
} while (accept(','));
expect(')');
return np;
}
static Node *
postfix(void)
{
Node *lp, *rp;
lp = primary();
for (;;) {
switch (yytoken) {
case '[':
next();
rp = expr();
lp = array(lp, rp);
expect(']');
break;
case DEC:
case INC:
lp = incdec(lp, (yytoken == INC) ? OINC : ODEC);
next();
break;
case INDIR:
lp = content(OPTR, lp);
case '.':
lp = field(lp);
break;
case '(':
lp = arguments(lp);
break;
default:
return lp;
}
}
}
static Node *unary(void);
static Type *
typeof(Node *np)
{
Type *tp;
if (np == NULL)
unexpected();
tp = np->type;
freetree(np);
return tp;
}
static Type *
sizeexp(void)
{
Type *tp;
expect('(');
switch (yytoken) {
case TYPE:
case TYPEIDEN:
tp = typename();
break;
default:
tp = typeof(unary());
break;
}
expect(')');
return tp;
}
static Node *cast(void);
static Node *
unary(void)
{
Node *(*fun)(char, Node *);
char op;
Type *tp;
switch (yytoken) {
case SIZEOF:
next();
tp = (yytoken == '(') ? sizeexp() : typeof(unary());
return sizeofnode(tp);
case INC:
case DEC:
op = (yytoken == INC) ? OA_ADD : OA_SUB;
next();
return incdec(unary(), op);
case '!': op = 0; fun = negation; break;
case '+': op = OADD; fun = numericaluop; break;
case '-': op = ONEG; fun = numericaluop; break;
case '~': op = OCPL; fun = integeruop; break;
case '&': op = OADDR; fun = address; break;
case '*': op = OPTR; fun = content; break;
default: return postfix();
}
next();
return (*fun)(op, cast());
}
static Node *
cast(void)
{
Node *lp, *rp;
Type *tp;
if (!accept('('))
return unary();
switch (yytoken) {
case TQUALIFIER:
case TYPE:
tp = typename();
switch (tp->op) {
case ARY:
error("cast specify an array type");
case FTN:
error("cast specify a function type");
default:
expect(')');
if ((lp = eval(cast())) == NULL)
unexpected();
if ((rp = convert(lp, tp, 1)) == NULL)
error("bad type convertion requested");
rp->lvalue = lp->lvalue;
}
break;
default:
rp = expr();
expect(')');
break;
}
return rp;
}
static Node *
mul(void)
{
Node *np, *(*fun)(char, Node *, Node *);
char op;
np = cast();
for (;;) {
switch (yytoken) {
case '*': op = OMUL; fun = arithmetic; break;
case '/': op = ODIV; fun = arithmetic; break;
case '%': op = OMOD; fun = integerop; break;
default: return np;
}
next();
np = (*fun)(op, np, cast());
}
}
static Node *
add(void)
{
char op;
Node *np;
np = mul();
for (;;) {
switch (yytoken) {
case '+': op = OADD; break;
case '-': op = OSUB; break;
default: return np;
}
next();
np = arithmetic(op, np, mul());
}
}
static Node *
shift(void)
{
char op;
Node *np;
np = add();
for (;;) {
switch (yytoken) {
case SHL: op = OSHL; break;
case SHR: op = OSHR; break;
default: return np;
}
next();
np = integerop(op, np, add());
}
}
static Node *
relational(void)
{
char op;
Node *np;
np = shift();
for (;;) {
switch (yytoken) {
case '<': op = OLT; break;
case '>': op = OGT; break;
case GE: op = OGE; break;
case LE: op = OLE; break;
default: return np;
}
next();
np = compare(op, np, shift());
}
}
static Node *
eq(void)
{
char op;
Node *np;
np = relational();
for (;;) {
switch (yytoken) {
case EQ: op = OEQ; break;
case NE: op = ONE; break;
default: return np;
}
next();
np = compare(op, np, relational());
}
}
static Node *
bit_and(void)
{
Node *np;
np = eq();
while (accept('&'))
np = integerop(OBAND, np, eq());
return np;
}
static Node *
bit_xor(void)
{
Node *np;
np = bit_and();
while (accept('^'))
np = integerop(OBXOR, np, bit_and());
return np;
}
static Node *
bit_or(void)
{
Node *np;
np = bit_xor();
while (accept('|'))
np = integerop(OBOR, np, bit_xor());
return np;
}
static Node *
and(void)
{
Node *np;
np = bit_or();
while (accept(AND))
np = logic(OAND, np, bit_or());
return np;
}
static Node *
or(void)
{
Node *np;
np = and();
while (accept(OR))
np = logic(OOR, np, and());
return np;
}
static Node *
ternary(void)
{
Node *cond;
cond = or();
while (accept('?')) {
Node *ifyes, *ifno, *np;
cond = exp2cond(cond, 0);
ifyes = promote(expr());
expect(':');
ifno = promote(ternary());
typeconv(&ifyes, &ifno);
np = node(OCOLON, ifyes->type, ifyes, ifno);
cond = node(OASK, np->type, cond, np);
}
return cond;
}
static Node *
assign(void)
{
Node *np, *(*fun)(char , Node *, Node *);
char op;
np = ternary();
for (;;) {
switch (yytoken) {
case '=': op = OASSIGN; fun = assignop; break;
case MUL_EQ: op = OA_MUL; fun = arithmetic; break;
case DIV_EQ: op = OA_DIV; fun = arithmetic; break;
case MOD_EQ: op = OA_MOD; fun = integerop; break;
case ADD_EQ: op = OA_ADD; fun = arithmetic; break;
case SUB_EQ: op = OA_SUB; fun = arithmetic; break;
case SHL_EQ: op = OA_SHL; fun = integerop; break;
case SHR_EQ: op = OA_SHR; fun = integerop; break;
case AND_EQ: op = OA_AND; fun = integerop; break;
case XOR_EQ: op = OA_XOR; fun = integerop; break;
case OR_EQ: op = OA_OR; fun = integerop; break;
default: return np;
}
chklvalue(np, np->type);
next();
np = (fun)(op, np, eval(assign()));
}
}
Node *
constexpr(void)
{
Node *np;
np = ternary();
if (!np->constant) {
freetree(np);
return NULL;
}
return np;
}
Node *
iconstexpr(void)
{
Node *np;
if ((np = constexpr()) == NULL)
return NULL;
if (np->type->op != INT) {
freetree(np);
return NULL;
}
return convert(np, inttype, 0);
}
Node *
expr(void)
{
Node *lp, *rp;
lp = assign();
while (accept(',')) {
rp = assign();
lp = node(OCOMMA, rp->type, lp, rp);
}
return lp;
}