Add left recursion check: quit early instead of going into an infinite loop (#7083)

* Add left recursion check: quit early instead of going into an infinite loop

* Remove custom enum, rename left recursion check and move to "grammar internal" section, add handling for edge case where a leftmost nonterminal may be empty

* Remove unnecessary declaration
This commit is contained in:
Haggai Nuchi 2024-05-13 22:25:56 -07:00 committed by GitHub
parent 27f65d6267
commit e0f556186b
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194
2 changed files with 114 additions and 0 deletions

View File

@ -13182,6 +13182,58 @@ static std::vector<llama_grammar_candidate> llama_grammar_reject_candidates(
return rejects;
}
static bool llama_grammar_detect_left_recursion(
const std::vector<std::vector<llama_grammar_element>> & rules,
size_t rule_index,
std::vector<bool> * rules_visited,
std::vector<bool> * rules_in_progress,
std::vector<bool> * rules_may_be_empty) {
if ((*rules_in_progress)[rule_index]) {
return true;
}
(*rules_in_progress)[rule_index] = true;
const std::vector<llama_grammar_element> & rule = rules[rule_index];
// First check if the rule might produce the empty string. This could be done combined with the second
// step but it's more readable as two steps.
bool at_rule_start = true;
for (size_t i = 0; i < rule.size(); i++) {
if (llama_grammar_is_end_of_sequence(&rule[i])) {
if (at_rule_start) {
(*rules_may_be_empty)[rule_index] = true;
break;
}
at_rule_start = true;
} else {
at_rule_start = false;
}
}
// Second, recurse into leftmost nonterminals (or next-leftmost as long as the previous nonterminal may
// be empty)
bool recurse_into_nonterminal = true;
for (size_t i = 0; i < rule.size(); i++) {
if (rule[i].type == LLAMA_GRETYPE_RULE_REF && recurse_into_nonterminal) {
if (llama_grammar_detect_left_recursion(rules, (size_t)rule[i].value, rules_visited, rules_in_progress, rules_may_be_empty)) {
return true;
}
if (!((*rules_may_be_empty)[(size_t)rule[i].value])) {
recurse_into_nonterminal = false;
}
} else if (llama_grammar_is_end_of_sequence(&rule[i])) {
recurse_into_nonterminal = true;
} else {
recurse_into_nonterminal = false;
}
}
(*rules_in_progress)[rule_index] = false;
(*rules_visited)[rule_index] = true;
return false;
}
//
// grammar - external
//
@ -13201,6 +13253,19 @@ struct llama_grammar * llama_grammar_init(
vec_rules[i].push_back({LLAMA_GRETYPE_END, 0});
}
// Check for left recursion
std::vector<bool> rules_visited(n_rules);
std::vector<bool> rules_in_progress(n_rules);
std::vector<bool> rules_may_be_empty(n_rules);
for (size_t i = 0; i < n_rules; i++) {
if (rules_visited[i]) {
continue;
}
if (llama_grammar_detect_left_recursion(vec_rules, i, &rules_visited, &rules_in_progress, &rules_may_be_empty)) {
throw std::runtime_error(format("unsupported grammar, left recursion detected for nonterminal at index %zu", i));
}
}
// loop over alternates of start rule to build initial stacks
std::vector<std::vector<const llama_grammar_element *>> stacks;
pos = vec_rules[start_rule_index].data();
@ -13223,6 +13288,9 @@ struct llama_grammar * llama_grammar_init(
}
} while (true);
// Important: vec_rules has to be moved here, not copied, because stacks contains
// pointers to elements of vec_rules. If vec_rules were copied into llama_grammar
// then the pointers would be invalidated when the local vec_rules goes out of scope.
return new llama_grammar{ std::move(vec_rules), std::move(stacks), {} };
}

View File

@ -28,6 +28,19 @@ static llama_grammar* build_grammar(const std::string & grammar_str) {
return grammar;
}
static bool test_build_grammar_fails(const std::string & grammar_str) {
fprintf(stderr, "⚫ Testing failure for grammar: %s\n", grammar_str.c_str());
bool grammar_fails = false;
try {
build_grammar(grammar_str);
fprintf(stderr, " ❌ Expected build failure, but succeeded\n");
} catch (const std::exception & err) {
grammar_fails = true;
fprintf(stdout, " ✅︎\n");
}
return grammar_fails;
}
static bool match_string(const std::string & input, llama_grammar* grammar) {
auto decoded = decode_utf8(input, {});
@ -320,6 +333,38 @@ number ::= [0-9]+)""";
fprintf(stderr, " ✅︎ Passed\n");
}
static void test_failure_left_recursion() {
fprintf(stderr, "⚫ Testing left recursion detection:\n");
// Test simple left recursion detection
const std::string simple_str = R"""(root ::= "a" | root "a")""";
assert(test_build_grammar_fails(simple_str));
// Test more complicated left recursion detection
const std::string medium_str = R"""(
root ::= asdf
asdf ::= "a" | asdf "a"
)""";
assert(test_build_grammar_fails(medium_str));
// Test even more complicated left recursion detection
const std::string hard_str = R"""(
root ::= asdf
asdf ::= "a" | foo "b"
foo ::= "c" | asdf "d" | "e")""";
assert(test_build_grammar_fails(hard_str));
// Test yet even more complicated left recursion detection
const std::string hardest_str = R"""(
root ::= asdf
asdf ::= "a" | foo "b"
foo ::= "c" | empty asdf "d" | "e"
empty ::= "blah" | )""";
assert(test_build_grammar_fails(hardest_str));
fprintf(stderr, " ✅︎ Passed\n");
}
int main() {
fprintf(stdout, "Running grammar integration tests...\n");
test_simple_grammar();
@ -327,6 +372,7 @@ int main() {
test_quantifiers();
test_failure_missing_root();
test_failure_missing_reference();
test_failure_left_recursion();
fprintf(stdout, "All tests passed.\n");
return 0;
}