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#include "third_party/chibicc/chibicc.h"
/* TODO(jart): Why can't these be const? */
Type ty_void[1] = {{TY_VOID, 1, 1}};
Type ty_bool[1] = {{TY_BOOL, 1, 1}};
Type ty_char[1] = {{TY_CHAR, 1, 1}};
Type ty_short[1] = {{TY_SHORT, 2, 2}};
Type ty_int[1] = {{TY_INT, 4, 4}};
Type ty_long[1] = {{TY_LONG, 8, 8}};
Type ty_int128[1] = {{TY_INT128, 16, 16}};
Type ty_uchar[1] = {{TY_CHAR, 1, 1, true}};
Type ty_ushort[1] = {{TY_SHORT, 2, 2, true}};
Type ty_uint[1] = {{TY_INT, 4, 4, true}};
Type ty_ulong[1] = {{TY_LONG, 8, 8, true}};
Type ty_uint128[1] = {{TY_INT128, 16, 16, true}};
Type ty_float[1] = {{TY_FLOAT, 4, 4}};
Type ty_double[1] = {{TY_DOUBLE, 8, 8}};
Type ty_ldouble[1] = {{TY_LDOUBLE, 16, 16}};
static Type *new_type(TypeKind kind, int size, int align) {
Type *ty = alloc_type();
ty->kind = kind;
ty->size = size;
ty->align = align;
return ty;
}
bool is_integer(Type *ty) {
TypeKind k = ty->kind;
return k == TY_BOOL || k == TY_CHAR || k == TY_SHORT || k == TY_INT ||
k == TY_LONG || k == TY_INT128 || k == TY_ENUM;
}
bool is_flonum(Type *ty) {
return ty->kind == TY_FLOAT || ty->kind == TY_DOUBLE ||
ty->kind == TY_LDOUBLE;
}
bool is_numeric(Type *ty) {
return is_integer(ty) || is_flonum(ty);
}
bool is_compatible(Type *t1, Type *t2) {
if (t1 == t2) return true;
if (t1->origin) return is_compatible(t1->origin, t2);
if (t2->origin) return is_compatible(t1, t2->origin);
if (t1->kind != t2->kind) return false;
switch (t1->kind) {
case TY_CHAR:
case TY_SHORT:
case TY_INT:
case TY_LONG:
case TY_INT128:
return t1->is_unsigned == t2->is_unsigned;
case TY_FLOAT:
case TY_DOUBLE:
case TY_LDOUBLE:
return true;
case TY_PTR:
return is_compatible(t1->base, t2->base);
case TY_FUNC: {
if (!is_compatible(t1->return_ty, t2->return_ty)) return false;
if (t1->is_variadic != t2->is_variadic) return false;
Type *p1 = t1->params;
Type *p2 = t2->params;
for (; p1 && p2; p1 = p1->next, p2 = p2->next) {
if (!is_compatible(p1, p2)) return false;
}
return p1 == NULL && p2 == NULL;
}
case TY_ARRAY:
if (!is_compatible(t1->base, t2->base)) return false;
return t1->array_len < 0 && t2->array_len < 0 &&
t1->array_len == t2->array_len;
}
return false;
}
Type *copy_type(Type *ty) {
Type *ret = alloc_type();
*ret = *ty;
ret->origin = ty;
return ret;
}
Type *pointer_to(Type *base) {
Type *ty = new_type(TY_PTR, 8, 8);
ty->base = base;
ty->is_unsigned = true;
return ty;
}
Type *func_type(Type *return_ty) {
// The C spec disallows sizeof(<function type>), but
// GCC allows that and the expression is evaluated to 1.
Type *ty = new_type(TY_FUNC, 1, 1);
ty->return_ty = return_ty;
return ty;
}
Type *array_of(Type *base, int len) {
Type *ty = new_type(TY_ARRAY, base->size * len, base->align);
ty->base = base;
ty->array_len = len;
return ty;
}
Type *vla_of(Type *base, Node *len) {
Type *ty = new_type(TY_VLA, 8, 8);
ty->base = base;
ty->vla_len = len;
return ty;
}
Type *enum_type(void) {
Type *ty = new_type(TY_ENUM, 4, 4);
ty->is_unsigned = true;
return ty;
}
Type *struct_type(void) {
return new_type(TY_STRUCT, 0, 1);
}
static Type *get_common_type(Type *ty1, Type *ty2) {
if (ty1->base) return pointer_to(ty1->base);
if (ty1->kind == TY_FUNC) return pointer_to(ty1);
if (ty2->kind == TY_FUNC) return pointer_to(ty2);
if (ty1->kind == TY_LDOUBLE || ty2->kind == TY_LDOUBLE) return ty_ldouble;
if (ty1->kind == TY_DOUBLE || ty2->kind == TY_DOUBLE) return ty_double;
if (ty1->kind == TY_FLOAT || ty2->kind == TY_FLOAT) return ty_float;
if (ty1->size < 4) ty1 = ty_int;
if (ty2->size < 4) ty2 = ty_int;
if (ty1->size != ty2->size) return (ty1->size < ty2->size) ? ty2 : ty1;
if (ty2->is_unsigned) return ty2;
return ty1;
}
// For many binary operators, we implicitly promote operands so that
// both operands have the same type. Any integral type smaller than
// int is always promoted to int. If the type of one operand is larger
// than the other's (e.g. "long" vs. "int"), the smaller operand will
// be promoted to match with the other.
//
// This operation is called the "usual arithmetic conversion".
static void usual_arith_conv(Node **lhs, Node **rhs) {
Type *ty = get_common_type((*lhs)->ty, (*rhs)->ty);
*lhs = new_cast(*lhs, ty);
*rhs = new_cast(*rhs, ty);
}
void add_type(Node *node) {
if (!node || node->ty) return;
add_type(node->lhs);
add_type(node->rhs);
add_type(node->cond);
add_type(node->then);
add_type(node->els);
add_type(node->init);
add_type(node->inc);
for (Node *n = node->body; n; n = n->next) add_type(n);
for (Node *n = node->args; n; n = n->next) add_type(n);
switch (node->kind) {
case ND_NUM:
node->ty = ty_int;
return;
case ND_ADD:
case ND_SUB:
case ND_MUL:
case ND_DIV:
case ND_REM:
case ND_BINAND:
case ND_BINOR:
case ND_BINXOR:
usual_arith_conv(&node->lhs, &node->rhs);
node->ty = node->lhs->ty;
return;
case ND_NEG: {
Type *ty = get_common_type(ty_int, node->lhs->ty);
node->lhs = new_cast(node->lhs, ty);
node->ty = ty;
return;
}
case ND_ASSIGN:
if (node->lhs->ty->kind == TY_ARRAY)
error_tok(node->lhs->tok, "not an lvalue!");
if (node->lhs->ty->kind != TY_STRUCT)
node->rhs = new_cast(node->rhs, node->lhs->ty);
node->ty = node->lhs->ty;
return;
case ND_EQ:
case ND_NE:
case ND_LT:
case ND_LE:
usual_arith_conv(&node->lhs, &node->rhs);
node->ty = ty_int;
return;
case ND_FUNCALL:
node->ty = node->func_ty->return_ty;
return;
case ND_NOT:
case ND_LOGOR:
case ND_LOGAND:
node->ty = ty_int;
return;
case ND_BITNOT:
case ND_SHL:
case ND_SHR:
node->ty = node->lhs->ty;
return;
case ND_VAR:
case ND_VLA_PTR:
node->ty = node->var->ty;
return;
case ND_COND:
if (node->then->ty->kind == TY_VOID || node->els->ty->kind == TY_VOID) {
node->ty = ty_void;
} else {
usual_arith_conv(&node->then, &node->els);
node->ty = node->then->ty;
}
return;
case ND_COMMA:
node->ty = node->rhs->ty;
return;
case ND_MEMBER:
node->ty = node->member->ty;
return;
case ND_ADDR: {
Type *ty = node->lhs->ty;
if (ty->kind == TY_ARRAY) {
node->ty = pointer_to(ty->base);
} else {
node->ty = pointer_to(ty);
}
return;
}
case ND_DEREF:
#if 0
if (node->lhs->ty->size == 16 && (node->lhs->ty->kind == TY_FLOAT ||
node->lhs->ty->kind == TY_DOUBLE)) {
node->ty = node->lhs->ty;
} else {
#endif
if (!node->lhs->ty->base) {
error_tok(node->tok, "invalid pointer dereference");
}
if (node->lhs->ty->base->kind == TY_VOID) {
/* TODO(jart): Does standard permit this? */
/* https://lkml.org/lkml/2018/3/20/845 */
error_tok(node->tok, "dereferencing a void pointer");
}
node->ty = node->lhs->ty->base;
#if 0
}
#endif
return;
case ND_STMT_EXPR:
if (node->body) {
Node *stmt = node->body;
for (;;) {
if (stmt->next) {
stmt = stmt->next;
} else {
if (stmt->kind == ND_LABEL && stmt->lhs) {
stmt = stmt->lhs;
} else {
break;
}
}
}
if (stmt->kind == ND_EXPR_STMT) {
node->ty = stmt->lhs->ty;
return;
}
}
error_tok(node->tok,
"statement expression returning void is not supported");
return;
case ND_LABEL_VAL:
node->ty = pointer_to(ty_void);
return;
case ND_CAS:
add_type(node->cas_addr);
add_type(node->cas_old);
add_type(node->cas_new);
node->ty = ty_bool;
if (node->cas_addr->ty->kind != TY_PTR)
error_tok(node->cas_addr->tok, "pointer expected");
if (node->cas_old->ty->kind != TY_PTR)
error_tok(node->cas_old->tok, "pointer expected");
return;
case ND_EXCH:
if (node->lhs->ty->kind != TY_PTR)
error_tok(node->cas_addr->tok, "pointer expected");
node->ty = node->lhs->ty->base;
return;
}
}