bool is_horn(expr* n) {
expr* n1, *n2;
while (is_forall(n)) n = to_quantifier(n)->get_expr();
if (m.is_implies(n, n1, n2) && is_predicate(n2)) {
if (is_var(n1)) {
return true;
}
if (is_quantifier(n1)) {
return false;
}
app* a1 = to_app(n1);
if (m.is_and(a1)) {
for (unsigned i = 0; i < a1->get_num_args(); ++i) {
if (!is_predicate(a1->get_arg(i)) &&
contains_predicate(a1->get_arg(i))) {
return false;
}
}
}
else if (!is_predicate(a1) && contains_predicate(a1)) {
return false;
}
return true;
}
return false;
}
void check_predicate(ast_mark& mark, expr* a) {
ptr_vector<expr> todo;
todo.push_back(a);
while (!todo.empty()) {
a = todo.back();
todo.pop_back();
if (mark.is_marked(a)) {
continue;
}
mark.mark(a, true);
if (is_quantifier(a)) {
a = to_quantifier(a)->get_expr();
todo.push_back(a);
}
else if (m.is_not(a) || m.is_and(a) || m.is_or(a) || m.is_implies(a)) {
todo.append(to_app(a)->get_num_args(), to_app(a)->get_args());
}
else if (m.is_ite(a)) {
todo.push_back(to_app(a)->get_arg(1));
todo.push_back(to_app(a)->get_arg(2));
}
else if (is_predicate(a)) {
register_predicate(a);
}
}
}
bool is_implication(expr* f) {
expr* e1;
while (is_forall(f)) {
f = to_quantifier(f)->get_expr();
}
while (m.is_implies(f, e1, f)) ;
return is_predicate(f);
}
void context::register_predicate(func_decl * decl, bool named) {
if (!is_predicate(decl)) {
m_pinned.push_back(decl);
m_preds.insert(decl);
if (named) {
m_preds_by_name.insert(decl->get_name(), decl);
}
}
}
formula_kind get_formula_kind(expr_ref& f) {
expr_ref tmp(f);
normalize(tmp);
ast_mark mark;
expr_ref_vector args(m), body(m);
expr_ref head(m);
expr* a = 0, *a1 = 0;
qe::flatten_or(tmp, args);
for (unsigned i = 0; i < args.size(); ++i) {
a = args[i].get();
check_predicate(mark, a);
if (m.is_not(a, a1)) {
body.push_back(a1);
}
else if (is_predicate(a)) {
if (head) {
return IS_NONE;
}
head = a;
}
else {
body.push_back(m.mk_not(a));
}
}
if (head) {
if (!is_implication(f)) {
f = m.mk_and(body.size(), body.c_ptr());
f = m.mk_implies(f, head);
}
return IS_RULE;
}
else {
f = m.mk_and(body.size(), body.c_ptr());
return IS_QUERY;
}
}
void register_predicate(expr* a) {
SASSERT(is_predicate(a));
m_ctx.register_predicate(to_app(a)->get_decl(), false);
}
static int
tl_lex(void)
{ int c;
do {
c = tl_Getchar();
yytext[0] = (char ) c;
yytext[1] = '\0';
if (c <= 0)
{ Token(';');
}
} while (c == ' '); /* '\t' is removed in tl_main.c */
if (c == '{' || c == '(') /* new 6.0.0 */
{ if (is_predicate(c))
{ read_upto_closing(c);
tl_yylval = tl_nn(PREDICATE,ZN,ZN);
if (!tl_yylval)
{ fatal("unexpected error 4", (char *) 0);
}
tl_yylval->sym = tl_lookup(yytext);
return PREDICATE;
} }
if (c == '}')
{ tl_yyerror("unexpected '}'");
}
if (islower(c))
{ tl_getword(c, isalnum_);
if (strcmp("true", yytext) == 0)
{ Token(TRUE);
}
if (strcmp("false", yytext) == 0)
{ Token(FALSE);
}
if (strcmp("always", yytext) == 0)
{ Token(ALWAYS);
}
if (strcmp("eventually", yytext) == 0)
{ Token(EVENTUALLY);
}
if (strcmp("until", yytext) == 0)
{ Token(U_OPER);
}
#ifdef NXT
if (strcmp("next", yytext) == 0)
{ Token(NEXT);
}
#endif
if (strcmp("c_expr", yytext) == 0)
{ Token(CEXPR);
}
if (strcmp("not", yytext) == 0)
{ Token(NOT);
}
tl_yylval = tl_nn(PREDICATE,ZN,ZN);
if (!tl_yylval)
{ fatal("unexpected error 5", (char *) 0);
}
tl_yylval->sym = tl_lookup(yytext);
return PREDICATE;
}
if (c == '<')
{ c = tl_Getchar();
if (c == '>')
{ Token(EVENTUALLY);
}
if (c != '-')
{ tl_UnGetchar();
tl_yyerror("expected '<>' or '<->'");
}
c = tl_Getchar();
if (c == '>')
{ Token(EQUIV);
}
tl_UnGetchar();
tl_yyerror("expected '<->'");
}
switch (c) {
case '/' : c = tl_follow('\\', AND, '/'); break;
case '\\': c = tl_follow('/', OR, '\\'); break;
case '&' : c = tl_follow('&', AND, '&'); break;
case '|' : c = tl_follow('|', OR, '|'); break;
case '[' : c = tl_follow(']', ALWAYS, '['); break;
case '-' : c = tl_follow('>', IMPLIES, '-'); break;
case '!' : c = NOT; break;
case 'U' : c = U_OPER; break;
case 'V' : c = V_OPER; break;
#ifdef NXT
case 'X' : c = NEXT; break;
#endif
default : break;
}
Token(c);
}
void context::register_predicate(func_decl * decl, bool named) {
if (!is_predicate(decl)) {
m_pinned.push_back(decl);
m_preds.insert(decl);
TRACE("dl", tout << mk_pp(decl, m) << "\n";);
