/* static bool eval_expr_as_float(Expression *e, FloatLiteral *f) { */ /* switch (e->kind) { */ /* case EXPR_FLOAT_LITERAL: */ /* *f = e->floatl; */ /* return true; */ /* case EXPR_INT_LITERAL: */ /* *f = (FloatLiteral)e->intl; */ /* return true; */ /* } */ /* err_print(e->where, "Not implemented yet"); */ /* return false; */ /* } */ static bool eval_expr_as_int(Expression *e, Integer *i) { /* OPTIM: cache eval'd expression values? (probably only for declarations) */ switch (e->kind) { case EXPR_FLOAT_LITERAL: err_print(e->where, "Expected integer, but found floating-point literal."); return false; case EXPR_INT_LITERAL: if (e->intl > (UInteger)INTEGER_MAX) { /* TODO: FIXME */ err_print(e->where, "Overflow when evaluating integer."); return false; } *i = (Integer)e->intl; return true; case EXPR_STR_LITERAL: err_print(e->where, "Expected integer, but found string literal."); return false; case EXPR_UNARY_OP: switch (e->unary.op) { case UNARY_MINUS: { Integer of; if (!eval_expr_as_int(e->unary.of, &of)) return false; *i = -of; return true; } } break; case EXPR_BINARY_OP: { switch (e->binary.op) { case BINARY_PLUS: case BINARY_MINUS: { Integer lhs, rhs; if (!eval_expr_as_int(e->binary.lhs, &lhs)) return false; if (!eval_expr_as_int(e->binary.rhs, &rhs)) return false; switch (e->binary.op) { case BINARY_PLUS: *i = lhs + rhs; return true; case BINARY_MINUS: *i = lhs - rhs; return true; default: assert(0); return false; } } case BINARY_SET: case BINARY_COMMA: err_print(e->where, "Expected operator which returns an integer, but got %s", binary_op_to_str(e->binary.op)); return false; case BINARY_AT_INDEX: err_print(e->where, "Cannot get index of array at compile time yet."); return false; } } break; case EXPR_IDENT: { Identifier id = e->ident; IdentDecl *id_decl = ident_decl(id); if (!id_decl) { char *id_str = ident_to_str(id); err_print(e->where, "Undeclared identifier: %s", id_str); free(id_str); return false; } Declaration *d = id_decl->decl; if (is_after(d->where, e->where)) { err_print(e->where, "Use of constant before its declaration."); info_print(d->where, "Declaration will be here."); return false; } if (!(d->flags & DECL_FLAG_CONST)) { err_print(e->where, "Use of non-constant identifier in a constant expression."); info_print(d->where, "Declaration was here."); return false; } if (d->type.kind != TYPE_BUILTIN || !type_builtin_is_integer(d->type.builtin)) { char *type_str = type_to_str(&d->type); err_print(e->where, "Expected integer, but identifier has type %s.", type_str); info_print(d->where, "Declaration was here."); free(type_str); return false; } /* TODO: tuples */ eval_expr_as_int(&d->expr, i); return true; } break; case EXPR_FN: err_print(e->where, "Expected integer, but found function."); return false; case EXPR_CALL: err_print(e->where, "Compile time function calling not supported yet."); /* TODO */ break; case EXPR_DIRECT: switch (e->direct.which) { case DIRECT_C: err_print(e->where, "Can't run C code at compile time."); return false; case DIRECT_COUNT: assert(0); break; } break; } err_print(e->where, "Not implemented yet"); return false; }