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using json = nlohmann::ordered_json; | |
template <typename Iterator> | |
static std::string join(Iterator begin, Iterator end, const std::string & separator); | |
static std::string repeat(const std::string & str, size_t n); | |
static std::string build_repetition(const std::string & item_rule, int min_items, int max_items, const std::string & separator_rule = "") { | |
auto has_max = max_items != std::numeric_limits<int>::max(); | |
if (min_items == 0 && max_items == 1) { | |
return item_rule + "?"; | |
} | |
if (separator_rule.empty()) { | |
if (min_items == 1 && !has_max) { | |
return item_rule + "+"; | |
} else if (min_items == 0 && !has_max) { | |
return item_rule + "*"; | |
} else { | |
return item_rule + "{" + std::to_string(min_items) + "," + (has_max ? std::to_string(max_items) : "") + "}"; | |
} | |
} | |
auto result = item_rule + " " + build_repetition("(" + separator_rule + " " + item_rule + ")", min_items == 0 ? 0 : min_items - 1, has_max ? max_items - 1 : max_items); | |
if (min_items == 0) { | |
result = "(" + result + ")?"; | |
} | |
return result; | |
} | |
/* Minimalistic replacement for std::string_view, which is only available from C++17 onwards */ | |
class string_view { | |
const std::string & _str; | |
const size_t _start; | |
const size_t _end; | |
public: | |
string_view(const std::string & str, size_t start = 0, size_t end = std::string::npos) : _str(str), _start(start), _end(end == std::string::npos ? str.length() : end) {} | |
size_t size() const { | |
return _end - _start; | |
} | |
size_t length() const { | |
return size(); | |
} | |
operator std::string() const { | |
return str(); | |
} | |
std::string str() const { | |
return _str.substr(_start, _end - _start); | |
} | |
string_view substr(size_t pos, size_t len = std::string::npos) const { | |
return string_view(_str, _start + pos, len == std::string::npos ? _end : _start + pos + len); | |
} | |
char operator[](size_t pos) const { | |
auto index = _start + pos; | |
if (index >= _end) { | |
throw std::out_of_range("string_view index out of range"); | |
} | |
return _str[_start + pos]; | |
} | |
bool operator==(const string_view & other) const { | |
std::string this_str = *this; | |
std::string other_str = other; | |
return this_str == other_str; | |
} | |
}; | |
static void _build_min_max_int(int min_value, int max_value, std::stringstream & out, int decimals_left = 16, bool top_level = true) { | |
auto has_min = min_value != std::numeric_limits<int>::min(); | |
auto has_max = max_value != std::numeric_limits<int>::max(); | |
auto digit_range = [&](char from, char to) { | |
out << "["; | |
if (from == to) { | |
out << from; | |
} else { | |
out << from << "-" << to; | |
} | |
out << "]"; | |
}; | |
auto more_digits = [&](int min_digits, int max_digits) { | |
out << "[0-9]"; | |
if (min_digits == max_digits && min_digits == 1) { | |
return; | |
} | |
out << "{"; | |
out << min_digits; | |
if (max_digits != min_digits) { | |
out << ","; | |
if (max_digits != std::numeric_limits<int>::max()) { | |
out << max_digits; | |
} | |
} | |
out << "}"; | |
}; | |
std::function<void(const string_view &, const string_view &)> uniform_range = | |
[&](const string_view & from, const string_view & to) { | |
size_t i = 0; | |
while (i < from.length() && i < to.length() && from[i] == to[i]) { | |
i++; | |
} | |
if (i > 0) { | |
out << "\"" << from.substr(0, i).str() << "\""; | |
} | |
if (i < from.length() && i < to.length()) { | |
if (i > 0) { | |
out << " "; | |
} | |
auto sub_len = from.length() - i - 1; | |
if (sub_len > 0) { | |
auto from_sub = from.substr(i + 1); | |
auto to_sub = to.substr(i + 1); | |
auto sub_zeros = repeat("0", sub_len); | |
auto sub_nines = repeat("9", sub_len); | |
auto to_reached = false; | |
out << "("; | |
if (from_sub == sub_zeros) { | |
digit_range(from[i], to[i] - 1); | |
out << " "; | |
more_digits(sub_len, sub_len); | |
} else { | |
out << "[" << from[i] << "] "; | |
out << "("; | |
uniform_range(from_sub, sub_nines); | |
out << ")"; | |
if (from[i] < to[i] - 1) { | |
out << " | "; | |
if (to_sub == sub_nines) { | |
digit_range(from[i] + 1, to[i]); | |
to_reached = true; | |
} else { | |
digit_range(from[i] + 1, to[i] - 1); | |
} | |
out << " "; | |
more_digits(sub_len, sub_len); | |
} | |
} | |
if (!to_reached) { | |
out << " | "; | |
digit_range(to[i], to[i]); | |
out << " "; | |
uniform_range(sub_zeros, to_sub); | |
} | |
out << ")"; | |
} else { | |
out << "[" << from[i] << "-" << to[i] << "]"; | |
} | |
} | |
}; | |
if (has_min && has_max) { | |
if (min_value < 0 && max_value < 0) { | |
out << "\"-\" ("; | |
_build_min_max_int(-max_value, -min_value, out, decimals_left, /* top_level= */ true); | |
out << ")"; | |
return; | |
} | |
if (min_value < 0) { | |
out << "\"-\" ("; | |
_build_min_max_int(0, -min_value, out, decimals_left, /* top_level= */ true); | |
out << ") | "; | |
min_value = 0; | |
} | |
auto min_s = std::to_string(min_value); | |
auto max_s = std::to_string(max_value); | |
auto min_digits = min_s.length(); | |
auto max_digits = max_s.length(); | |
for (auto digits = min_digits; digits < max_digits; digits++) { | |
uniform_range(min_s, repeat("9", digits)); | |
min_s = "1" + repeat("0", digits); | |
out << " | "; | |
} | |
uniform_range(min_s, max_s); | |
return; | |
} | |
auto less_decimals = std::max(decimals_left - 1, 1); | |
if (has_min) { | |
if (min_value < 0) { | |
out << "\"-\" ("; | |
_build_min_max_int(std::numeric_limits<int>::min(), -min_value, out, decimals_left, /* top_level= */ false); | |
out << ") | [0] | [1-9] "; | |
more_digits(0, decimals_left - 1); | |
} else if (min_value == 0) { | |
if (top_level) { | |
out << "[0] | [1-9] "; | |
more_digits(0, less_decimals); | |
} else { | |
more_digits(1, decimals_left); | |
} | |
} else if (min_value <= 9) { | |
char c = '0' + min_value; | |
auto range_start = top_level ? '1' : '0'; | |
if (c > range_start) { | |
digit_range(range_start, c - 1); | |
out << " "; | |
more_digits(1, less_decimals); | |
out << " | "; | |
} | |
digit_range(c, '9'); | |
out << " "; | |
more_digits(0, less_decimals); | |
} else { | |
auto min_s = std::to_string(min_value); | |
auto len = min_s.length(); | |
auto c = min_s[0]; | |
if (c > '1') { | |
digit_range(top_level ? '1' : '0', c - 1); | |
out << " "; | |
more_digits(len, less_decimals); | |
out << " | "; | |
} | |
digit_range(c, c); | |
out << " ("; | |
_build_min_max_int(std::stoi(min_s.substr(1)), std::numeric_limits<int>::max(), out, less_decimals, /* top_level= */ false); | |
out << ")"; | |
if (c < '9') { | |
out << " | "; | |
digit_range(c + 1, '9'); | |
out << " "; | |
more_digits(len - 1, less_decimals); | |
} | |
} | |
return; | |
} | |
if (has_max) { | |
if (max_value >= 0) { | |
if (top_level) { | |
out << "\"-\" [1-9] "; | |
more_digits(0, less_decimals); | |
out << " | "; | |
} | |
_build_min_max_int(0, max_value, out, decimals_left, /* top_level= */ true); | |
} else { | |
out << "\"-\" ("; | |
_build_min_max_int(-max_value, std::numeric_limits<int>::max(), out, decimals_left, /* top_level= */ false); | |
out << ")"; | |
} | |
return; | |
} | |
throw std::runtime_error("At least one of min_value or max_value must be set"); | |
} | |
const std::string SPACE_RULE = "| \" \" | \"\\n\" [ \\t]{0,20}"; | |
struct BuiltinRule { | |
std::string content; | |
std::vector<std::string> deps; | |
}; | |
std::unordered_map<std::string, BuiltinRule> PRIMITIVE_RULES = { | |
{"boolean", {"(\"true\" | \"false\") space", {}}}, | |
{"decimal-part", {"[0-9]{1,16}", {}}}, | |
{"integral-part", {"[0] | [1-9] [0-9]{0,15}", {}}}, | |
{"number", {"(\"-\"? integral-part) (\".\" decimal-part)? ([eE] [-+]? integral-part)? space", {"integral-part", "decimal-part"}}}, | |
{"integer", {"(\"-\"? integral-part) space", {"integral-part"}}}, | |
{"value", {"object | array | string | number | boolean | null", {"object", "array", "string", "number", "boolean", "null"}}}, | |
{"object", {"\"{\" space ( string \":\" space value (\",\" space string \":\" space value)* )? \"}\" space", {"string", "value"}}}, | |
{"array", {"\"[\" space ( value (\",\" space value)* )? \"]\" space", {"value"}}}, | |
{"uuid", {"\"\\\"\" [0-9a-fA-F]{8} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{12} \"\\\"\" space", {}}}, | |
{"char", {"[^\"\\\\\\x7F\\x00-\\x1F] | [\\\\] ([\"\\\\bfnrt] | \"u\" [0-9a-fA-F]{4})", {}}}, | |
{"string", {"\"\\\"\" char* \"\\\"\" space", {"char"}}}, | |
{"null", {"\"null\" space", {}}}, | |
}; | |
std::unordered_map<std::string, BuiltinRule> STRING_FORMAT_RULES = { | |
{"date", {"[0-9]{4} \"-\" ( \"0\" [1-9] | \"1\" [0-2] ) \"-\" ( \"0\" [1-9] | [1-2] [0-9] | \"3\" [0-1] )", {}}}, | |
{"time", {"([01] [0-9] | \"2\" [0-3]) \":\" [0-5] [0-9] \":\" [0-5] [0-9] ( \".\" [0-9]{3} )? ( \"Z\" | ( \"+\" | \"-\" ) ( [01] [0-9] | \"2\" [0-3] ) \":\" [0-5] [0-9] )", {}}}, | |
{"date-time", {"date \"T\" time", {"date", "time"}}}, | |
{"date-string", {"\"\\\"\" date \"\\\"\" space", {"date"}}}, | |
{"time-string", {"\"\\\"\" time \"\\\"\" space", {"time"}}}, | |
{"date-time-string", {"\"\\\"\" date-time \"\\\"\" space", {"date-time"}}} | |
}; | |
static bool is_reserved_name(const std::string & name) { | |
static std::unordered_set<std::string> RESERVED_NAMES; | |
if (RESERVED_NAMES.empty()) { | |
RESERVED_NAMES.insert("root"); | |
for (const auto &p : PRIMITIVE_RULES) RESERVED_NAMES.insert(p.first); | |
for (const auto &p : STRING_FORMAT_RULES) RESERVED_NAMES.insert(p.first); | |
} | |
return RESERVED_NAMES.find(name) != RESERVED_NAMES.end(); | |
} | |
std::regex INVALID_RULE_CHARS_RE("[^a-zA-Z0-9-]+"); | |
std::regex GRAMMAR_LITERAL_ESCAPE_RE("[\r\n\"]"); | |
std::regex GRAMMAR_RANGE_LITERAL_ESCAPE_RE("[\r\n\"\\]\\-\\\\]"); | |
std::unordered_map<char, std::string> GRAMMAR_LITERAL_ESCAPES = { | |
{'\r', "\\r"}, {'\n', "\\n"}, {'"', "\\\""}, {'-', "\\-"}, {']', "\\]"} | |
}; | |
std::unordered_set<char> NON_LITERAL_SET = {'|', '.', '(', ')', '[', ']', '{', '}', '*', '+', '?'}; | |
std::unordered_set<char> ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS = {'^', '$', '.', '[', ']', '(', ')', '|', '{', '}', '*', '+', '?'}; | |
template <typename Iterator> | |
std::string join(Iterator begin, Iterator end, const std::string & separator) { | |
std::ostringstream result; | |
if (begin != end) { | |
result << *begin; | |
for (Iterator it = begin + 1; it != end; ++it) { | |
result << separator << *it; | |
} | |
} | |
return result.str(); | |
} | |
static std::vector<std::string> split(const std::string & str, const std::string & delimiter) { | |
std::vector<std::string> tokens; | |
size_t start = 0; | |
size_t end = str.find(delimiter); | |
while (end != std::string::npos) { | |
tokens.push_back(str.substr(start, end - start)); | |
start = end + delimiter.length(); | |
end = str.find(delimiter, start); | |
} | |
tokens.push_back(str.substr(start)); | |
return tokens; | |
} | |
static std::string repeat(const std::string & str, size_t n) { | |
if (n == 0) { | |
return ""; | |
} | |
std::string result; | |
result.reserve(str.length() * n); | |
for (size_t i = 0; i < n; ++i) { | |
result += str; | |
} | |
return result; | |
} | |
static std::string replacePattern(const std::string & input, const std::regex & regex, const std::function<std::string(const std::smatch &)> & replacement) { | |
std::smatch match; | |
std::string result; | |
std::string::const_iterator searchStart(input.cbegin()); | |
std::string::const_iterator searchEnd(input.cend()); | |
while (std::regex_search(searchStart, searchEnd, match, regex)) { | |
result.append(searchStart, searchStart + match.position()); | |
result.append(replacement(match)); | |
searchStart = match.suffix().first; | |
} | |
result.append(searchStart, searchEnd); | |
return result; | |
} | |
static std::string format_literal(const std::string & literal) { | |
std::string escaped = replacePattern(literal, GRAMMAR_LITERAL_ESCAPE_RE, [&](const std::smatch & match) { | |
char c = match.str()[0]; | |
return GRAMMAR_LITERAL_ESCAPES.at(c); | |
}); | |
return "\"" + escaped + "\""; | |
} | |
class SchemaConverter { | |
private: | |
std::function<json(const std::string &)> _fetch_json; | |
bool _dotall; | |
std::map<std::string, std::string> _rules; | |
std::unordered_map<std::string, json> _refs; | |
std::unordered_set<std::string> _refs_being_resolved; | |
std::vector<std::string> _errors; | |
std::vector<std::string> _warnings; | |
std::string _add_rule(const std::string & name, const std::string & rule) { | |
std::string esc_name = regex_replace(name, INVALID_RULE_CHARS_RE, "-"); | |
if (_rules.find(esc_name) == _rules.end() || _rules[esc_name] == rule) { | |
_rules[esc_name] = rule; | |
return esc_name; | |
} else { | |
int i = 0; | |
while (_rules.find(esc_name + std::to_string(i)) != _rules.end() && _rules[esc_name + std::to_string(i)] != rule) { | |
i++; | |
} | |
std::string key = esc_name + std::to_string(i); | |
_rules[key] = rule; | |
return key; | |
} | |
} | |
std::string _generate_union_rule(const std::string & name, const std::vector<json> & alt_schemas) { | |
std::vector<std::string> rules; | |
for (size_t i = 0; i < alt_schemas.size(); i++) { | |
rules.push_back(visit(alt_schemas[i], name + (name.empty() ? "alternative-" : "-") + std::to_string(i))); | |
} | |
return join(rules.begin(), rules.end(), " | "); | |
} | |
std::string _visit_pattern(const std::string & pattern, const std::string & name) { | |
if (!(pattern.front() == '^' && pattern.back() == '$')) { | |
_errors.push_back("Pattern must start with '^' and end with '$'"); | |
return ""; | |
} | |
std::string sub_pattern = pattern.substr(1, pattern.length() - 2); | |
std::unordered_map<std::string, std::string> sub_rule_ids; | |
size_t i = 0; | |
size_t length = sub_pattern.length(); | |
using literal_or_rule = std::pair<std::string, bool>; | |
auto to_rule = [&](const literal_or_rule & ls) { | |
auto is_literal = ls.second; | |
auto s = ls.first; | |
return is_literal ? "\"" + s + "\"" : s; | |
}; | |
std::function<literal_or_rule()> transform = [&]() -> literal_or_rule { | |
size_t start = i; | |
std::vector<literal_or_rule> seq; | |
auto get_dot = [&]() { | |
std::string rule; | |
if (_dotall) { | |
rule = "[\\U00000000-\\U0010FFFF]"; | |
} else { | |
rule = "[^\\x0A\\x0D]"; | |
} | |
return _add_rule("dot", rule); | |
}; | |
// Joins the sequence, merging consecutive literals together. | |
auto join_seq = [&]() { | |
std::vector<literal_or_rule> ret; | |
std::string literal; | |
auto flush_literal = [&]() { | |
if (literal.empty()) { | |
return false; | |
} | |
ret.emplace_back(literal, true); | |
literal.clear(); | |
return true; | |
}; | |
for (const auto & item : seq) { | |
auto is_literal = item.second; | |
if (is_literal) { | |
literal += item.first; | |
} else { | |
flush_literal(); | |
ret.push_back(item); | |
} | |
} | |
flush_literal(); | |
std::vector<std::string> results; | |
for (const auto & item : ret) { | |
results.push_back(to_rule(item)); | |
} | |
return std::make_pair(join(results.begin(), results.end(), " "), false); | |
}; | |
while (i < length) { | |
char c = sub_pattern[i]; | |
if (c == '.') { | |
seq.emplace_back(get_dot(), false); | |
i++; | |
} else if (c == '(') { | |
i++; | |
if (i < length) { | |
if (sub_pattern[i] == '?') { | |
_warnings.push_back("Unsupported pattern syntax"); | |
} | |
} | |
seq.emplace_back("(" + to_rule(transform()) + ")", false); | |
} else if (c == ')') { | |
i++; | |
if (start > 0 && sub_pattern[start - 1] != '(') { | |
_errors.push_back("Unbalanced parentheses"); | |
} | |
return join_seq(); | |
} else if (c == '[') { | |
std::string square_brackets = std::string(1, c); | |
i++; | |
while (i < length && sub_pattern[i] != ']') { | |
if (sub_pattern[i] == '\\') { | |
square_brackets += sub_pattern.substr(i, 2); | |
i += 2; | |
} else { | |
square_brackets += sub_pattern[i]; | |
i++; | |
} | |
} | |
if (i >= length) { | |
_errors.push_back("Unbalanced square brackets"); | |
} | |
square_brackets += ']'; | |
i++; | |
seq.emplace_back(square_brackets, false); | |
} else if (c == '|') { | |
seq.emplace_back("|", false); | |
i++; | |
} else if (c == '*' || c == '+' || c == '?') { | |
seq.back() = std::make_pair(to_rule(seq.back()) + c, false); | |
i++; | |
} else if (c == '{') { | |
std::string curly_brackets = std::string(1, c); | |
i++; | |
while (i < length && sub_pattern[i] != '}') { | |
curly_brackets += sub_pattern[i]; | |
i++; | |
} | |
if (i >= length) { | |
_errors.push_back("Unbalanced curly brackets"); | |
} | |
curly_brackets += '}'; | |
i++; | |
auto nums = split(curly_brackets.substr(1, curly_brackets.length() - 2), ","); | |
int min_times = 0; | |
int max_times = std::numeric_limits<int>::max(); | |
try { | |
if (nums.size() == 1) { | |
min_times = max_times = std::stoi(nums[0]); | |
} else if (nums.size() != 2) { | |
_errors.push_back("Wrong number of values in curly brackets"); | |
} else { | |
if (!nums[0].empty()) { | |
min_times = std::stoi(nums[0]); | |
} | |
if (!nums[1].empty()) { | |
max_times = std::stoi(nums[1]); | |
} | |
} | |
} catch (const std::invalid_argument & e) { | |
_errors.push_back("Invalid number in curly brackets"); | |
return std::make_pair("", false); | |
} | |
auto &last = seq.back(); | |
auto &sub = last.first; | |
auto sub_is_literal = last.second; | |
if (!sub_is_literal) { | |
std::string & sub_id = sub_rule_ids[sub]; | |
if (sub_id.empty()) { | |
sub_id = _add_rule(name + "-" + std::to_string(sub_rule_ids.size()), sub); | |
} | |
sub = sub_id; | |
} | |
seq.back().first = build_repetition( | |
sub_is_literal ? "\"" + sub + "\"" : sub, | |
min_times, | |
max_times, | |
"" | |
); | |
seq.back().second = false; | |
} else { | |
std::string literal; | |
auto is_non_literal = [&](char c) { | |
return NON_LITERAL_SET.find(c) != NON_LITERAL_SET.end(); | |
}; | |
while (i < length) { | |
if (sub_pattern[i] == '\\' && i < length - 1) { | |
char next = sub_pattern[i + 1]; | |
if (ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS.find(next) != ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS.end()) { | |
i++; | |
literal += sub_pattern[i]; | |
i++; | |
} else { | |
literal += sub_pattern.substr(i, 2); | |
i += 2; | |
} | |
} else if (sub_pattern[i] == '"') { | |
literal += "\\\""; | |
i++; | |
} else if (!is_non_literal(sub_pattern[i]) && | |
(i == length - 1 || literal.empty() || sub_pattern[i + 1] == '.' || !is_non_literal(sub_pattern[i + 1]))) { | |
literal += sub_pattern[i]; | |
i++; | |
} else { | |
break; | |
} | |
} | |
if (!literal.empty()) { | |
seq.emplace_back(literal, true); | |
} | |
} | |
} | |
return join_seq(); | |
}; | |
return _add_rule(name, "\"\\\"\" (" + to_rule(transform()) + ") \"\\\"\" space"); | |
} | |
/* | |
Returns a rule that matches a JSON string that is none of the provided strings | |
not_strings({"a"}) | |
-> ["] ( [a] char+ | [^"a] char* )? ["] space | |
not_strings({"and", "also"}) | |
-> ["] ( [a] ([l] ([s] ([o] char+ | [^"o] char*) | [^"s] char*) | [n] ([d] char+ | [^"d] char*) | [^"ln] char*) | [^"a] char* )? ["] space | |
*/ | |
std::string _not_strings(const std::vector<std::string> & strings) { | |
struct TrieNode { | |
std::map<char, TrieNode> children; | |
bool is_end_of_string; | |
TrieNode() : is_end_of_string(false) {} | |
void insert(const std::string & string) { | |
auto node = this; | |
for (char c : string) { | |
node = &node->children[c]; | |
} | |
node->is_end_of_string = true; | |
} | |
}; | |
TrieNode trie; | |
for (const auto & s : strings) { | |
trie.insert(s); | |
} | |
std::string char_rule = _add_primitive("char", PRIMITIVE_RULES.at("char")); | |
std::ostringstream out; | |
out << "[\"] ( "; | |
std::function<void(const TrieNode &)> visit = [&](const TrieNode & node) { | |
std::ostringstream rejects; | |
auto first = true; | |
for (const auto & kv : node.children) { | |
rejects << kv.first; | |
if (first) { | |
first = false; | |
} else { | |
out << " | "; | |
} | |
out << "[" << kv.first << "]"; | |
if (!kv.second.children.empty()) { | |
out << " ("; | |
visit(kv.second); | |
out << ")"; | |
} else if (kv.second.is_end_of_string) { | |
out << " " << char_rule << "+"; | |
} | |
} | |
if (!node.children.empty()) { | |
if (!first) { | |
out << " | "; | |
} | |
out << "[^\"" << rejects.str() << "] " << char_rule << "*"; | |
} | |
}; | |
visit(trie); | |
out << " )"; | |
if (!trie.is_end_of_string) { | |
out << "?"; | |
} | |
out << " [\"] space"; | |
return out.str(); | |
} | |
std::string _resolve_ref(const std::string & ref) { | |
std::string ref_name = ref.substr(ref.find_last_of('/') + 1); | |
if (_rules.find(ref_name) == _rules.end() && _refs_being_resolved.find(ref) == _refs_being_resolved.end()) { | |
_refs_being_resolved.insert(ref); | |
json resolved = _refs[ref]; | |
ref_name = visit(resolved, ref_name); | |
_refs_being_resolved.erase(ref); | |
} | |
return ref_name; | |
} | |
std::string _build_object_rule( | |
const std::vector<std::pair<std::string, json>> & properties, | |
const std::unordered_set<std::string> & required, | |
const std::string & name, | |
const json & additional_properties) | |
{ | |
std::vector<std::string> required_props; | |
std::vector<std::string> optional_props; | |
std::unordered_map<std::string, std::string> prop_kv_rule_names; | |
std::vector<std::string> prop_names; | |
for (const auto & kv : properties) { | |
const auto &prop_name = kv.first; | |
const auto &prop_schema = kv.second; | |
std::string prop_rule_name = visit(prop_schema, name + (name.empty() ? "" : "-") + prop_name); | |
prop_kv_rule_names[prop_name] = _add_rule( | |
name + (name.empty() ? "" : "-") + prop_name + "-kv", | |
format_literal(json(prop_name).dump()) + " space \":\" space " + prop_rule_name | |
); | |
if (required.find(prop_name) != required.end()) { | |
required_props.push_back(prop_name); | |
} else { | |
optional_props.push_back(prop_name); | |
} | |
prop_names.push_back(prop_name); | |
} | |
if ((additional_properties.is_boolean() && additional_properties.get<bool>()) || additional_properties.is_object()) { | |
std::string sub_name = name + (name.empty() ? "" : "-") + "additional"; | |
std::string value_rule = | |
additional_properties.is_object() ? visit(additional_properties, sub_name + "-value") | |
: _add_primitive("value", PRIMITIVE_RULES.at("value")); | |
auto key_rule = | |
prop_names.empty() ? _add_primitive("string", PRIMITIVE_RULES.at("string")) | |
: _add_rule(sub_name + "-k", _not_strings(prop_names)); | |
std::string kv_rule = _add_rule(sub_name + "-kv", key_rule + " \":\" space " + value_rule); | |
prop_kv_rule_names["*"] = kv_rule; | |
optional_props.push_back("*"); | |
} | |
std::string rule = "\"{\" space "; | |
for (size_t i = 0; i < required_props.size(); i++) { | |
if (i > 0) { | |
rule += " \",\" space "; | |
} | |
rule += prop_kv_rule_names[required_props[i]]; | |
} | |
if (!optional_props.empty()) { | |
rule += " ("; | |
if (!required_props.empty()) { | |
rule += " \",\" space ( "; | |
} | |
std::function<std::string(const std::vector<std::string> &, bool)> get_recursive_refs = [&](const std::vector<std::string> & ks, bool first_is_optional) { | |
std::string res; | |
if (ks.empty()) { | |
return res; | |
} | |
std::string k = ks[0]; | |
std::string kv_rule_name = prop_kv_rule_names[k]; | |
std::string comma_ref = "( \",\" space " + kv_rule_name + " )"; | |
if (first_is_optional) { | |
res = comma_ref + (k == "*" ? "*" : "?"); | |
} else { | |
res = kv_rule_name + (k == "*" ? " " + comma_ref + "*" : ""); | |
} | |
if (ks.size() > 1) { | |
res += " " + _add_rule( | |
name + (name.empty() ? "" : "-") + k + "-rest", | |
get_recursive_refs(std::vector<std::string>(ks.begin() + 1, ks.end()), true) | |
); | |
} | |
return res; | |
}; | |
for (size_t i = 0; i < optional_props.size(); i++) { | |
if (i > 0) { | |
rule += " | "; | |
} | |
rule += get_recursive_refs(std::vector<std::string>(optional_props.begin() + i, optional_props.end()), false); | |
} | |
if (!required_props.empty()) { | |
rule += " )"; | |
} | |
rule += " )?"; | |
} | |
rule += " \"}\" space"; | |
return rule; | |
} | |
std::string _add_primitive(const std::string & name, const BuiltinRule & rule) { | |
auto n = _add_rule(name, rule.content); | |
for (const auto & dep : rule.deps) { | |
BuiltinRule dep_rule; | |
auto it = PRIMITIVE_RULES.find(dep); | |
if (it == PRIMITIVE_RULES.end()) { | |
it = STRING_FORMAT_RULES.find(dep); | |
if (it == STRING_FORMAT_RULES.end()) { | |
_errors.push_back("Rule " + dep + " not known"); | |
continue; | |
} | |
} | |
if (_rules.find(dep) == _rules.end()) { | |
_add_primitive(dep, it->second); | |
} | |
} | |
return n; | |
} | |
public: | |
SchemaConverter( | |
const std::function<json(const std::string &)> & fetch_json, | |
bool dotall) | |
: _fetch_json(fetch_json), _dotall(dotall) | |
{ | |
_rules["space"] = SPACE_RULE; | |
} | |
void resolve_refs(json & schema, const std::string & url) { | |
/* | |
* Resolves all $ref fields in the given schema, fetching any remote schemas, | |
* replacing each $ref with absolute reference URL and populates _refs with the | |
* respective referenced (sub)schema dictionaries. | |
*/ | |
std::function<void(json &)> visit_refs = [&](json & n) { | |
if (n.is_array()) { | |
for (auto & x : n) { | |
visit_refs(x); | |
} | |
} else if (n.is_object()) { | |
if (n.contains("$ref")) { | |
std::string ref = n["$ref"]; | |
if (_refs.find(ref) == _refs.end()) { | |
json target; | |
if (ref.find("https://") == 0) { | |
std::string base_url = ref.substr(0, ref.find('#')); | |
auto it = _refs.find(base_url); | |
if (it != _refs.end()) { | |
target = it->second; | |
} else { | |
// Fetch the referenced schema and resolve its refs | |
auto referenced = _fetch_json(ref); | |
resolve_refs(referenced, base_url); | |
_refs[base_url] = referenced; | |
} | |
if (ref.find('#') == std::string::npos || ref.substr(ref.find('#') + 1).empty()) { | |
return; | |
} | |
} else if (ref.find("#/") == 0) { | |
target = schema; | |
n["$ref"] = url + ref; | |
ref = url + ref; | |
} else { | |
_errors.push_back("Unsupported ref: " + ref); | |
return; | |
} | |
std::string pointer = ref.substr(ref.find('#') + 1); | |
std::vector<std::string> tokens = split(pointer, "/"); | |
for (size_t i = 1; i < tokens.size(); ++i) { | |
std::string sel = tokens[i]; | |
if (target.is_null() || !target.contains(sel)) { | |
_errors.push_back("Error resolving ref " + ref + ": " + sel + " not in " + target.dump()); | |
return; | |
} | |
target = target[sel]; | |
} | |
_refs[ref] = target; | |
} | |
} else { | |
for (auto & kv : n.items()) { | |
visit_refs(kv.value()); | |
} | |
} | |
} | |
}; | |
visit_refs(schema); | |
} | |
std::string _generate_constant_rule(const json & value) { | |
return format_literal(value.dump()); | |
} | |
std::string visit(const json & schema, const std::string & name) { | |
json schema_type = schema.contains("type") ? schema["type"] : json(); | |
std::string schema_format = schema.contains("format") ? schema["format"].get<std::string>() : ""; | |
std::string rule_name = is_reserved_name(name) ? name + "-" : name.empty() ? "root" : name; | |
if (schema.contains("$ref")) { | |
return _add_rule(rule_name, _resolve_ref(schema["$ref"])); | |
} else if (schema.contains("oneOf") || schema.contains("anyOf")) { | |
std::vector<json> alt_schemas = schema.contains("oneOf") ? schema["oneOf"].get<std::vector<json>>() : schema["anyOf"].get<std::vector<json>>(); | |
return _add_rule(rule_name, _generate_union_rule(name, alt_schemas)); | |
} else if (schema_type.is_array()) { | |
std::vector<json> schema_types; | |
for (const auto & t : schema_type) { | |
json schema_copy(schema); | |
schema_copy["type"] = t; | |
schema_types.push_back(schema_copy); | |
} | |
return _add_rule(rule_name, _generate_union_rule(name, schema_types)); | |
} else if (schema.contains("const")) { | |
return _add_rule(rule_name, _generate_constant_rule(schema["const"]) + " space"); | |
} else if (schema.contains("enum")) { | |
std::vector<std::string> enum_values; | |
for (const auto & v : schema["enum"]) { | |
enum_values.push_back(_generate_constant_rule(v)); | |
} | |
return _add_rule(rule_name, "(" + join(enum_values.begin(), enum_values.end(), " | ") + ") space"); | |
} else if ((schema_type.is_null() || schema_type == "object") | |
&& (schema.contains("properties") || | |
(schema.contains("additionalProperties") && schema["additionalProperties"] != true))) { | |
std::unordered_set<std::string> required; | |
if (schema.contains("required") && schema["required"].is_array()) { | |
for (const auto & item : schema["required"]) { | |
if (item.is_string()) { | |
required.insert(item.get<std::string>()); | |
} | |
} | |
} | |
std::vector<std::pair<std::string, json>> properties; | |
if (schema.contains("properties")) { | |
for (const auto & prop : schema["properties"].items()) { | |
properties.emplace_back(prop.key(), prop.value()); | |
} | |
} | |
return _add_rule(rule_name, | |
_build_object_rule( | |
properties, required, name, | |
schema.contains("additionalProperties") ? schema["additionalProperties"] : json())); | |
} else if ((schema_type.is_null() || schema_type == "object") && schema.contains("allOf")) { | |
std::unordered_set<std::string> required; | |
std::vector<std::pair<std::string, json>> properties; | |
std::string hybrid_name = name; | |
std::function<void(const json &, bool)> add_component = [&](const json & comp_schema, bool is_required) { | |
if (comp_schema.contains("$ref")) { | |
add_component(_refs[comp_schema["$ref"]], is_required); | |
} else if (comp_schema.contains("properties")) { | |
for (const auto & prop : comp_schema["properties"].items()) { | |
properties.emplace_back(prop.key(), prop.value()); | |
if (is_required) { | |
required.insert(prop.key()); | |
} | |
} | |
} else { | |
// todo warning | |
} | |
}; | |
for (auto & t : schema["allOf"]) { | |
if (t.contains("anyOf")) { | |
for (auto & tt : t["anyOf"]) { | |
add_component(tt, false); | |
} | |
} else { | |
add_component(t, true); | |
} | |
} | |
return _add_rule(rule_name, _build_object_rule(properties, required, hybrid_name, json())); | |
} else if ((schema_type.is_null() || schema_type == "array") && (schema.contains("items") || schema.contains("prefixItems"))) { | |
json items = schema.contains("items") ? schema["items"] : schema["prefixItems"]; | |
if (items.is_array()) { | |
std::string rule = "\"[\" space "; | |
for (size_t i = 0; i < items.size(); i++) { | |
if (i > 0) { | |
rule += " \",\" space "; | |
} | |
rule += visit(items[i], name + (name.empty() ? "" : "-") + "tuple-" + std::to_string(i)); | |
} | |
rule += " \"]\" space"; | |
return _add_rule(rule_name, rule); | |
} else { | |
std::string item_rule_name = visit(items, name + (name.empty() ? "" : "-") + "item"); | |
int min_items = schema.contains("minItems") ? schema["minItems"].get<int>() : 0; | |
json max_items_json = schema.contains("maxItems") ? schema["maxItems"] : json(); | |
int max_items = max_items_json.is_number_integer() ? max_items_json.get<int>() : std::numeric_limits<int>::max(); | |
return _add_rule(rule_name, "\"[\" space " + build_repetition(item_rule_name, min_items, max_items, "\",\" space") + " \"]\" space"); | |
} | |
} else if ((schema_type.is_null() || schema_type == "string") && schema.contains("pattern")) { | |
return _visit_pattern(schema["pattern"], rule_name); | |
} else if ((schema_type.is_null() || schema_type == "string") && std::regex_match(schema_format, std::regex("^uuid[1-5]?$"))) { | |
return _add_primitive(rule_name == "root" ? "root" : schema_format, PRIMITIVE_RULES.at("uuid")); | |
} else if ((schema_type.is_null() || schema_type == "string") && STRING_FORMAT_RULES.find(schema_format + "-string") != STRING_FORMAT_RULES.end()) { | |
auto prim_name = schema_format + "-string"; | |
return _add_rule(rule_name, _add_primitive(prim_name, STRING_FORMAT_RULES.at(prim_name))); | |
} else if (schema_type == "string" && (schema.contains("minLength") || schema.contains("maxLength"))) { | |
std::string char_rule = _add_primitive("char", PRIMITIVE_RULES.at("char")); | |
int min_len = schema.contains("minLength") ? schema["minLength"].get<int>() : 0; | |
int max_len = schema.contains("maxLength") ? schema["maxLength"].get<int>() : std::numeric_limits<int>::max(); | |
return _add_rule(rule_name, "\"\\\"\" " + build_repetition(char_rule, min_len, max_len) + " \"\\\"\" space"); | |
} else if (schema_type == "integer" && (schema.contains("minimum") || schema.contains("exclusiveMinimum") || schema.contains("maximum") || schema.contains("exclusiveMaximum"))) { | |
int min_value = std::numeric_limits<int>::min(); | |
int max_value = std::numeric_limits<int>::max(); | |
if (schema.contains("minimum")) { | |
min_value = schema["minimum"].get<int>(); | |
} else if (schema.contains("exclusiveMinimum")) { | |
min_value = schema["exclusiveMinimum"].get<int>() + 1; | |
} | |
if (schema.contains("maximum")) { | |
max_value = schema["maximum"].get<int>(); | |
} else if (schema.contains("exclusiveMaximum")) { | |
max_value = schema["exclusiveMaximum"].get<int>() - 1; | |
} | |
std::stringstream out; | |
out << "("; | |
_build_min_max_int(min_value, max_value, out); | |
out << ") space"; | |
return _add_rule(rule_name, out.str()); | |
} else if (schema.empty() || schema_type == "object") { | |
return _add_rule(rule_name, _add_primitive("object", PRIMITIVE_RULES.at("object"))); | |
} else { | |
if (!schema_type.is_string() || PRIMITIVE_RULES.find(schema_type.get<std::string>()) == PRIMITIVE_RULES.end()) { | |
_errors.push_back("Unrecognized schema: " + schema.dump()); | |
return ""; | |
} | |
// TODO: support minimum, maximum, exclusiveMinimum, exclusiveMaximum at least for zero | |
return _add_primitive(rule_name == "root" ? "root" : schema_type.get<std::string>(), PRIMITIVE_RULES.at(schema_type.get<std::string>())); | |
} | |
} | |
void check_errors() { | |
if (!_errors.empty()) { | |
throw std::runtime_error("JSON schema conversion failed:\n" + join(_errors.begin(), _errors.end(), "\n")); | |
} | |
if (!_warnings.empty()) { | |
fprintf(stderr, "WARNING: JSON schema conversion was incomplete: %s\n", join(_warnings.begin(), _warnings.end(), "; ").c_str()); | |
} | |
} | |
std::string format_grammar() { | |
std::stringstream ss; | |
for (const auto & kv : _rules) { | |
ss << kv.first << " ::= " << kv.second << std::endl; | |
} | |
return ss.str(); | |
} | |
}; | |
std::string json_schema_to_grammar(const json & schema) { | |
SchemaConverter converter([](const std::string &) { return json::object(); }, /* dotall= */ false); | |
auto copy = schema; | |
converter.resolve_refs(copy, "input"); | |
converter.visit(copy, ""); | |
converter.check_errors(); | |
return converter.format_grammar(); | |
} | |