json-validator/include/jvalidate/format.h

#pragma once
#include <jvalidate/_config.h>
#include <jvalidate/_macro.h>

/*
 NOLINTBEGIN(readability-identifier-length,
             bugprone-inc-dec-in-conditions,
             cppcoreguidelines-avoid-magic-numbers,
             bugprone-suspicious-stringview-data-usage,
             readability-implicit-bool-conversion,
             cppcoreguidelines-narrowing-conversions,
             readability-identifier-length)
 */
#include <cstdint>
#include <cstdio>
#include <functional>

#include <cctype>
#include <chrono> // IWYU pragma: keep
#include <cstddef>
#include <cstring>
#include <ctime>
#include <string>
#include <string_view>
#include <system_error>
#include <unordered_map>
#include <unordered_set>
#include <utility>

#if JVALIDATE_HAS_IDNA
#include <ada/idna/to_unicode.h>
#include <ada/idna/validity.h>
#endif

#include <jvalidate/detail/expect.h>
#include <jvalidate/detail/idna_special_cases.h>
#include <jvalidate/detail/pointer.h>
#include <jvalidate/detail/relative_pointer.h>
#include <jvalidate/detail/string.h>
#include <jvalidate/enum.h>
#include <jvalidate/forward.h>

#define CONSTRUCTS(TYPE) format::ctor_as_valid<detail::TYPE>

#define UTF32(FN) JVALIDATE_IIF(JVALIDATE_HAS_IDNA, format::utf32<format::FN<char32_t>>, nullptr)

namespace jvalidate::format {
bool date(std::string_view dt);
bool time(std::string_view dt);
bool date_time(std::string_view dt);
bool duration(std::string_view dur);

template <typename CharT = char> bool uri(std::basic_string_view<CharT> uri);
template <typename CharT = char> bool uri_reference(std::basic_string_view<CharT> uri);
bool uri_template(std::u32string_view uri);
bool uuid(std::string_view id);
template <typename CharT = char> bool hostname(std::basic_string_view<CharT> name);

bool ipv4(std::string_view ip);
bool ipv6(std::string_view ip);

template <typename CharT = char> bool email(std::basic_string_view<CharT> em);
}

namespace jvalidate::format::detail {
inline bool is_dec(std::string_view s, size_t min = 0, size_t max = std::string_view::npos) {
  constexpr char const * g_dec_digits = "0123456789";
  return s.find_first_not_of(g_dec_digits) == std::string::npos && s.size() >= min &&
         s.size() <= max;
}

inline bool is_hex(std::string_view s) {
  constexpr char const * g_hex_digits = "0123456789ABCDEFabcdef";
  return s.find_first_not_of(g_hex_digits) == std::string::npos;
}

struct Result {
  ptrdiff_t consumed;
  bool valid;
};

inline bool is_leapyear(int y) { return (y % 400) == 0 || ((y % 4) == 0 && (y % 100) != 0); }

inline bool illegal_date(int y, int m, int d) {
  static constexpr std::array<int, 12> days = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
  if (is_leapyear(y) && m == 1) {
    --d;
  }
  return m >= 0 && m < days.size() && d > days.at(m);
}

inline Result date(std::string_view dt) {
  struct tm tm;
  if (char * end = strptime(dt.data(), "%Y-%m-%d", &tm); end) {
    if ((end - dt.data()) != 10 || illegal_date(tm.tm_year + 1900, tm.tm_mon, tm.tm_mday)) {
      return {.consumed = 0, .valid = false};
    }
    return {.consumed = end - dt.data(), .valid = true};
  }
  return {.consumed = 0L, .valid = false};
}

inline bool is_leapsecond(std::tm tm) {
  if (tm.tm_sec != 60) {
    return true; // NOLINT(readability-simplify-boolean-expr) See below...
  }

#if __cpp_lib_chrono >= 201907L
  tm.tm_isdst = -1;
  std::chrono::seconds time(std::mktime(&tm));
  auto const & leap_seconds = std::chrono::get_tzdb().leap_seconds;
  return std::ranges::find(leap_seconds, time) != leap_seconds.end();
#else
  return false;
#endif
}

// https://www.rfc-editor.org/rfc/rfc6570.html#section-1.5
inline bool is_uschar(int c) {
  using P = std::pair<int, int>;
  constexpr std::array data{
      P{0xA0, 0xD7FF},     P{0xF900, 0xFDCF},   P{0xFDF0, 0xFFEF},   P{0x10000, 0x1FFFD},
      P{0x20000, 0x2FFFD}, P{0x30000, 0x3FFFD}, P{0x40000, 0x4FFFD}, P{0x50000, 0x5FFFD},
      P{0x60000, 0x6FFFD}, P{0x70000, 0x7FFFD}, P{0x80000, 0x8FFFD}, P{0x90000, 0x9FFFD},
      P{0xA0000, 0xAFFFD}, P{0xB0000, 0xBFFFD}, P{0xC0000, 0xCFFFD}, P{0xD0000, 0xDFFFD},
      P{0xE0000, 0xEFFFD},
  };
  return std::ranges::any_of(data,
                             [c](auto & pair) { return c >= pair.first && c <= pair.second; });
}

template <typename CharT>
inline bool is_pchar(std::basic_string_view<CharT> part, size_t & pos,
                     std::string_view extra_valid_chars = ":@") {
  constexpr char const * g_hex_digits = "0123456789ABCDEFabcdef";
  if (std::isalnum(part[pos]) || is_uschar(part[pos]) ||
      std::strchr("-._~!$&'()*+,;=", part[pos])) {
    return true;
  }
  if (part[pos] == '%') {
    return pos + 2 < part.size() && std::strchr(g_hex_digits, part[++pos]) &&
           std::strchr(g_hex_digits, part[++pos]);
  }
  return extra_valid_chars.find(part[pos]) != std::basic_string_view<CharT>::npos;
};

inline bool is_uri_template_literal(std::u32string_view part, size_t & pos) {
  constexpr char const * g_hex_digits = "0123456789ABCDEFabcdef";
  if (part[pos] == '%') {
    return pos + 2 < part.size() && std::strchr(g_hex_digits, part[++pos]) &&
           std::strchr(g_hex_digits, part[++pos]);
  }
  return !std::strchr(R"( "'%<>\^`{|}`)", part[pos]) && part[pos] > 0x1F && part[pos] != 0x7F;
}

inline bool is_uri_template_varchar(std::u32string_view part, size_t & pos) {
  constexpr char const * g_hex_digits = "0123456789ABCDEFabcdef";
  if (part[pos] == '%') {
    return pos + 2 < part.size() && std::strchr(g_hex_digits, part[++pos]) &&
           std::strchr(g_hex_digits, part[++pos]);
  }
  return std::isalnum(part[pos]) || part[pos] == '_';
}

inline bool is_uri_template_expression(std::u32string_view part) {
  if (part.empty()) {
    return false;
  }

  if (std::strchr("+#./;?&=,!@|", part[0])) {
    part.remove_prefix(1);
  }

  for (size_t pos = part.find(','); !part.empty();
       part.remove_prefix(std::min(part.size(), pos)), pos = part.find(',')) {
    std::u32string_view varspec = part.substr(0, pos);
    std::u32string_view expand;
    if (size_t const mod = varspec.find_first_of(U":*"); mod != std::u32string_view::npos) {
      expand = varspec.substr(mod + 1);
      varspec.remove_suffix(expand.size() + 1);
    }

    if (expand.empty() || expand == U"*") {
      // No Modifier, or Explode
    } else if (expand.size() > 4 || expand[0] == '0' ||
               not std::ranges::all_of(expand, [](char c) { return std::isdigit(c); })) {
      return false;
    }
    for (size_t i = 0; i < varspec.size(); ++i) {
      JVALIDATE_RETURN_UNLESS(is_uri_template_varchar(varspec, i) || (i > 0 && varspec[i] == '.'),
                              false);
    }
  }

  return true;
}

template <typename CharT> bool is_uri_authority(std::basic_string_view<CharT> uri) {
  // A URI Authority section MAY contain user info, which is every character up
  // to the first "@" character, as long as that character is not part of the path
  if (size_t pos = uri.find('@'); pos != uri.npos) {
    for (size_t i = 0; i < pos; ++i) {
      if (not is_pchar(uri, i, ":")) {
        return false;
      }
    }
    uri.remove_prefix(pos + 1);
  }

  // A URI Authority HOST section
  // If the URI starts with '[', then it MUST BE an IPv6 or an "IPvFuture"
  bool const has_ipv6 = (uri[0] == '[');
  if (has_ipv6) {
    size_t pos = uri.find(']');
    auto ip = uri.substr(1, pos - 1);
    uri.remove_prefix(pos + 1);
    if (not ipv6(to_u8(ip))) {
      return false;
    }
  }

  // A URI Authority PORT section. Technically allows any number of digits
  if (size_t pos = uri.find(':'); pos != uri.npos) {
    if (not std::ranges::all_of(uri.substr(pos + 1), [](auto c) { return std::isdigit(c); })) {
      return false;
    }
    uri.remove_suffix(uri.size() - pos + 1);
  }

  // Normal URI Authority HOST section is either an IPv4 or a HOSTNAME
  // if we had an ipv6 part, we can permit an empty string (since hostname
  // no longer permits them).
  return (has_ipv6 && uri.empty()) || ipv4(to_u8(uri)) || hostname(uri);
}

// Tests if a URI "Query Part" or "Fragment Part" is valid and remove the part
template <typename CharT> bool test_uri_part(std::basic_string_view<CharT> & uri, char delim) {
  size_t const pos = uri.find(delim);
  if (pos == uri.npos) {
    return true;
  }
  auto part = uri.substr(pos + 1);
  uri = uri.substr(0, pos);
  for (size_t pos = 0; pos < part.size(); ++pos) {
    JVALIDATE_RETURN_UNLESS(detail::is_pchar(part, pos, ":@/?"), false);
  }
  return true;
};
}

namespace jvalidate::format::draft03 {
namespace detail = jvalidate::format::detail;

inline bool time(std::string_view dt) {
  std::tm tm;
  char const * end = strptime(dt.data(), "%T", &tm);
  if (end == nullptr || (end - dt.data()) < 8) {
    return false;
  }
  return end == dt.end();
}

inline bool utc_millisec(std::string_view utc) {
  int64_t itime = 0;
  if (auto [end, ec] = std::from_chars(utc.begin(), utc.end(), itime);
      ec == std::errc{} && end == utc.end()) {
    return true;
  }
  double dtime = 0.0;
  auto [end, ec] = std::from_chars(utc.begin(), utc.end(), dtime);
  return ec == std::errc{} && end == utc.end();
}

inline bool css_2_1_color(std::string_view color) {
  if (color.empty()) {
    return false;
  }
  constexpr char const * g_hex_digits = "0123456789ABCDEFabcdef";
  if (color[0] == '#') {
    return color.size() <= 7 && detail::is_hex(color.substr(1));
  }
  static std::unordered_set<std::string_view> g_color_codes{
      "maroon", "red",  "orange", "yellow", "olive", "purple", "fuchsia", "white", "lime",
      "green",  "navy", "blue",   "aqua",   "teal",  "black",  "silver",  "gray"};
  return g_color_codes.contains(color);
}

inline bool e_123_phone(std::string_view phone) {
  // https://support.secureauth.com/hc/en-us/articles/360036402211-Regular-Expressions-for-ITU-E-123-and-E-164-phone-number-formats
  if (phone.empty()) {
    return false;
  }
  if (phone[0] != '+') {
    constexpr size_t g_usa_phone_tokens = 3;
    char area[4], head[4], tail[5]; // NOLINT
    return sscanf(phone.data(), "(%3s) %3s %4s", area, head, tail) == g_usa_phone_tokens &&
           detail::is_dec(area, 3) && detail::is_dec(head, 3) && detail::is_dec(tail, 4);
  }
  char tok0[4], tok1[4], tok2[4], tok3[5]; // NOLINT
  constexpr size_t g_i18n_phone_tokens = 4;
  return sscanf(phone.data(), "+%3s %3s %3s %4s", tok0, tok1, tok2, tok3) == g_i18n_phone_tokens &&
         detail::is_dec(tok0, 1, 3) && detail::is_dec(tok1, 2, 3) && detail::is_dec(tok2, 2, 3) &&
         detail::is_dec(tok3, 4);
}
}

namespace jvalidate::format {
inline bool date(std::string_view dt) {
  auto [consumed, valid] = detail::date(dt);
  return valid && consumed == dt.size();
}

inline bool time(std::string_view dt) {
  std::tm tm;
  char const * end = strptime(dt.data(), "%T", &tm);
  if (end == nullptr || end == dt.end() || (end - dt.data()) < 8) {
    return false;
  }
  dt.remove_prefix(end - dt.begin());
  if (dt[0] == '.') {
    dt.remove_prefix(1);
    if (dt.empty() || not std::isdigit(dt[0])) {
      return false;
    }
    while (std::isdigit(dt[0])) {
      dt.remove_prefix(1);
    }
  }

  if (dt[0] == 'Z' || dt[0] == 'z') {
    return dt.size() == 1 && detail::is_leapsecond(tm);
  }
  if (std::strchr("+-", dt[0])) {
    dt.remove_prefix(1);
    return strptime(dt.data(), "%R", &tm) == dt.end() && detail::is_leapsecond(tm);
  }
  return false;
}

inline bool date_time(std::string_view dt) {
  auto [size, good] = detail::date(dt);
  if (not good || std::strchr("Tt", dt[size]) == nullptr) {
    return false;
  }
  dt.remove_prefix(size + 1);
  return time(dt);
}

template <typename CharT> inline bool uri(std::basic_string_view<CharT> uri) {
  using delim = detail::char_delimiters<CharT>;

  // https://www.rfc-editor.org/rfc/rfc3986.html#appendix-A
  if (size_t const pos = uri.find(':'); pos != uri.npos) {
    JVALIDATE_RETURN_UNLESS(std::isalpha(uri[0]), false);
    for (size_t i = 1; i < pos; ++i) {
      JVALIDATE_RETURN_UNLESS(std::isalnum(uri[i]) || std::strchr("+-.", uri[i]), false);
    }
    uri.remove_prefix(pos + 1);
  } else {
    return false;
  }

  JVALIDATE_RETURN_UNLESS(detail::test_uri_part(uri, '#'), false);
  JVALIDATE_RETURN_UNLESS(detail::test_uri_part(uri, '?'), false);

  auto path = uri;
  if (uri.starts_with(delim::double_slash)) {
    uri.remove_prefix(2);
    path = uri.substr(std::min(uri.size(), uri.find('/')));
    uri.remove_suffix(path.size());
    JVALIDATE_RETURN_UNLESS(detail::is_uri_authority(uri), false);
  }

  for (size_t i = 0; i < path.size(); ++i) {
    JVALIDATE_RETURN_UNLESS(detail::is_pchar(path, i, "/:@"), false);
  }

  return true;
}

template <typename CharT> inline bool uri_reference(std::basic_string_view<CharT> uri) {
  using delim = detail::char_delimiters<CharT>;
  if (jvalidate::format::uri(uri)) {
    return true;
  }

  JVALIDATE_RETURN_UNLESS(detail::test_uri_part(uri, '#'), false);
  JVALIDATE_RETURN_UNLESS(detail::test_uri_part(uri, '?'), false);

  auto path = uri;
  if (uri.starts_with(delim::double_slash)) {
    uri.remove_prefix(2);
    path = uri.substr(std::min(uri.size(), uri.find('/')));
    uri.remove_suffix(path.size());
    JVALIDATE_RETURN_UNLESS(detail::is_uri_authority(uri), false);
  }

  if (size_t const pos = path.find('/'); pos != path.npos) {
    for (size_t i = 0; i < pos; ++i) {
      JVALIDATE_RETURN_UNLESS(detail::is_pchar(path, i, "@"), false);
    }
    path.remove_prefix(pos);
  }

  for (size_t i = 0; i < path.size(); ++i) {
    JVALIDATE_RETURN_UNLESS(detail::is_pchar(path, i, "/:@"), false);
  }

  return true;
}

inline bool uri_template(std::u32string_view uri) {
  for (size_t i = 0; i < uri.size(); ++i) {
    if (uri[i] != '{') {
      JVALIDATE_RETURN_UNLESS(detail::is_uri_template_literal(uri, i), false);
      continue;
    }

    std::u32string_view expr = uri.substr(i + 1);
    size_t const pos = expr.find('}');
    JVALIDATE_RETURN_IF(pos == std::u32string_view::npos, false);
    JVALIDATE_RETURN_UNLESS(detail::is_uri_template_expression(expr.substr(0, pos)), false);
    i += pos + 1;
  }
  return true;
}

inline bool uuid(std::string_view id) {
  constexpr size_t g_uuid_len = 36;
  constexpr size_t g_uuid_tokens = 5;
  char tok0[9], tok1[5], tok2[5], tok3[5], tok4[13]; // NOLINT

  return id.size() == g_uuid_len &&
         // NOLINTNEXTLINE(bugprone-suspicious-stringview-data-usage)
         sscanf(id.data(), "%8s-%4s-%4s-%4s-%12s", tok0, tok1, tok2, tok3, tok4) == g_uuid_tokens &&
         detail::is_hex(tok0) && detail::is_hex(tok1) && detail::is_hex(tok2) &&
         detail::is_hex(tok3) && detail::is_hex(tok4);
}

inline bool duration(std::string_view dur) {
  auto eat = [&dur](std::string_view text) {
    char type = '\0';
    unsigned int rep = 0;
    // NOLINTNEXTLINE(bugprone-suspicious-stringview-data-usage)
    if (sscanf(dur.data(), "%u%c", &rep, &type) != 2 || text.find(type) == std::string::npos) {
      return std::string::npos;
    }
    dur.remove_prefix(dur.find(type) + 1);
    return text.find(type);
  };

  // All DURATION entities must start with the prefix 'P', and cannot be empty
  // past that point.
  if (dur[0] != 'P' || dur.size() == 1) {
    return false;
  }
  dur.remove_prefix(1);

  // Special Case: a duration measured in weeks is incompatible with other
  // duration tokens.
  if (eat("W") != std::string::npos) {
    return dur.empty();
  }

  // DURATION takes the following form, because we use the same token for both
  // Months and Minutes.
  // "P[#Y][#M][#D][T[#H][#M][#S]]".
  // At least one of the optional fields must be present.
  if (dur[0] != 'T') {
    std::string_view ymd{"YMD"};
    // Read YMD duration offsets in that order, allowing us to skip past them.
    while (not ymd.empty() && not dur.empty()) {
      if (size_t const pos = eat(ymd); pos != std::string::npos) {
        ymd.remove_prefix(pos + 1);
      } else {
        return false;
      }
    }
    if (dur.empty()) {
      return true;
    }
  }

  // If we have a 'T' prefix for Hour/Minute/Second offsets, we must have at
  // least one of them present.
  if (dur[0] != 'T' || dur.size() == 1) {
    return false;
  }
  dur.remove_prefix(1);

  std::string_view hms{"HMS"};
  // Read HMS duration offsets in that order, allowing us to skip past them.
  while (not hms.empty() && not dur.empty()) {
    if (size_t const pos = eat(hms); pos != std::string::npos) {
      hms.remove_prefix(pos + 1);
    } else {
      return false;
    }
  }
  return dur.empty();
}

template <typename CharT>
bool is_invalid_size_or_boundary_hostname(std::basic_string_view<CharT> name) {
  using delim = detail::char_delimiters<CharT>;
  return (name.empty() || name.length() >= 64 ||
          (name.size() >= 4 && name.substr(2).starts_with(delim::illegal_dashes_ulabel)) ||
          name[0] == '-' || name.back() == '-');
}

#if !JVALIDATE_HAS_IDNA
inline bool hostname_part(std::string_view name) {
  using delim = detail::char_delimiters<char>;

  if (is_invalid_size_or_boundary_hostname(name)) {
    return false;
  }
  return std::ranges::none_of(name, [](char c) { return c != '-' && not std::isalnum(c); });
}
#else
template <typename CharT> inline bool hostname_part(std::basic_string_view<CharT> name) {
  using delim = detail::char_delimiters<CharT>;
  // Punycode is a way to restructure UTF-8 strings to be ASCII compatibly
  // All Punycode string start with "xn--" (and would therefore fail below).
  if (name.starts_with(delim::punycode_prefix)) {
    std::u32string decoded = detail::to_u32(ada::idna::to_unicode(detail::to_u8(name)));
    return (decoded != detail::to_u32(name)) && hostname_part<char32_t>(decoded);
  }

  // Unfortunately, the ada-idna library does not validate things like
  // "is there a HEBREW character after the HEBREW COMMA".
  if (not detail::is_special_case_ok(name)) {
    return false;
  }

  if (name.find_first_of(delim::illegal_hostname_chars) != name.npos) {
    return false;
  }

  // An INVALID hostname part is one of the following:
  // - empty
  // - more than 63 characters long
  // - starts or ends with a '-'
  // - matches the regular expression /^..--.*$/
  if (is_invalid_size_or_boundary_hostname(name)) {
    return false;
  }

  // This is a much easier check in hostname than idn-hostname, since we can
  // just check for alphanumeric and '-'.
  if constexpr (std::is_same_v<char, CharT>) {
    return std::ranges::none_of(name, [](char c) { return c != '-' && not std::isalnum(c); });
  } else {
    return ada::idna::is_label_valid(name);
  }
}
#endif

template <typename CharT> inline bool hostname(std::basic_string_view<CharT> name) {
  using delim = detail::char_delimiters<CharT>;
  // In general, the maximum length of a hostname is 253 characters.
  if (name.empty() || name.length() > 253) {
    return false;
  }

  // We validate each sub-section of the hostname in parts, delimited by '.'
  for (size_t n = name.find_first_of(delim::hostname_part_delims); n != std::string::npos;
       name.remove_prefix(n + 1), n = name.find_first_of(delim::hostname_part_delims)) {
    if (not hostname_part(name.substr(0, n))) {
      return false;
    }
  }

  // Previous test versions allowed for a hostname to end with '.', but this is
  // not permitted in the latest test specification.
  return hostname_part(name);
}

inline bool ipv4(std::string_view ip) {
  unsigned int ip0, ip1, ip2, ip3; // NOLINT
  char eof = '\0';
  // IPv4 address MAY only contain DIGITS and '.'
  if (ip.find_first_not_of("0123456789.") != std::string_view::npos) {
    return false;
  }

  // Each OCTET of an IPv4 can only start with '0' if it is EXACTLY '0'
  if (ip[0] == '0' && std::isdigit(ip[1])) {
    return false;
  }
  if (size_t const pos = ip.find(".0");
      pos != std::string_view::npos && std::isdigit(ip[pos + 2])) {
    return false;
  }

  // sscanf returns the number of tokens parsed successfully.
  // Therefore, we can add a trailing character output to the format-string
  // and check that we failed to parse any token into the eof-character token.
  if (sscanf(std::string(ip).c_str(), "%3u.%3u.%3u.%3u%c", &ip0, &ip1, &ip2, &ip3, &eof) != 4) {
    return false;
  }
  // Affirm that each OCTET is only two bytes wide.
  return ip0 <= 0xFF && ip1 <= 0xFF && ip2 <= 0xFF && ip3 <= 0xFF;
}

inline bool ipv6(std::string_view ip) {
  int expected_spans = 8;

  // There is a special rule with IPv6 to allow an IPv4 address as a suffix
  if (size_t n = ip.find('.'); n != std::string::npos) {
    if (not ipv4(ip.substr(ip.find_last_of(':') + 1))) {
      return false;
    }
    // since ipv4 addresses contain 8 bytes of information, and each segment of
    // an ipv6 address contains 4 bytes - we should reduce the number of
    // expected spans to 6. Instead - we reduce it to 7 because we don't prune
    // the first OCTET of the IPv4 section (as it can read as a valid segment).
    expected_spans = 7;
    ip = ip.substr(0, n);
  }

  // IPv6 address MAY only contain HEXDIGITs and ':'
  if (ip.find_first_not_of("0123456789ABCDEFabcdef:") != std::string::npos) {
    return false;
  }
  // IPv6 addresses can have a maximum of 39 characters (8 4-char HEXDIGIT
  // segments with 7 dividing ':'s).
  if (ip.size() >= 40) {
    return false;
  }

  bool has_compressed = false;
  int groups = 0;

  if (ip.starts_with("::")) {
    has_compressed = true;
    ip.remove_prefix(2);
  }

  while (!ip.empty() && ++groups) {
    int data = 0;
    if (sscanf(ip.data(), "%4x", &data) != 1) {
      // Not a 4-byte HEXDIGIT. Not sure that it's ever possible due to the
      // char filter above.
      return false;
    }

    size_t const div_pos = ip.find(':');
    if (std::min(div_pos, ip.size()) > 4) {
      return false; // Segments must be between 1 and 4 characters long
    }
    if (div_pos != std::string::npos) {
      ip.remove_prefix(div_pos + 1);
    } else {
      break; // End of String
    }

    // We removed the regular ':', so this is a check for a compression mark
    if (ip[0] != ':') {
      continue;
    }
    if (std::exchange(has_compressed, true)) {
      // The above trick allows us to ensure that there is no more than one
      // set of "::" compression tokens in this IPv6 adfress.
      return false;
    }
    ip.remove_prefix(1);
  }

  return groups == expected_spans || (has_compressed && groups < expected_spans);
}

// Let's be honest - no matter what RFC 5321 §4.1.2 or RFC 6531 say, the only
// way to know if an email address is valid is to try and send a message to it.
// Therefore, there's no point in trying to validate things according to a
// complex grammar - as long as it has an '@' sign with at least one character
// on each side, we ought to call it an email.
template <typename CharT> inline bool email(std::basic_string_view<CharT> em) {
  using delim = detail::char_delimiters<CharT>;
  size_t const n = em.find_last_of('@');
  if (n == 0 || n >= em.size() - 1) {
    return false;
  }

  auto const who = em.substr(0, n);
  if (who.starts_with('"') && who.ends_with('"')) {
    // No validation
  } else if (who.starts_with('.') || who.ends_with('.')) { // NOLINT(bugprone-branch-clone)
    return false;
  } else if (em.substr(0, n).find(delim::dotdot) != em.npos) {
    return false;
  } else if (who.find('@') != em.npos) {
    // This will catch multiple emails, but will gracefully ignore quote-escaped
    // '@' characters in the name element.
    return false;
  }

  // The DOMAIN section of an email address MAY be either a HOSTNAME, or an
  // IP Address surrounded in brackets.
  auto domain = em.substr(n + 1);
  if (not(domain.starts_with('[') && domain.ends_with(']'))) {
    return hostname(domain);
  }
  domain.remove_prefix(1);
  domain.remove_suffix(1);

  // When the DOMAIN is an IPv6, it must start with "IPv6:" for some
  // weird compatibility reason.
  auto ip = detail::to_u8(domain);
  if (ip.starts_with("IPv6:")) {
    return ipv6(ip.substr(5));
  }
  return ipv4(ip);
}

template <typename T> inline bool ctor_as_valid(std::string_view str) {
  return T::parse(str).has_value();
}

#if JVALIDATE_HAS_IDNA
template <auto Predicate> bool utf32(std::string_view str) {
  return Predicate(detail::to_u32(str));
}
#endif
}

namespace jvalidate {
class FormatValidator {
public:
  using StatelessPredicate = bool (*)(std::string_view);
  using Predicate = std::function<bool(std::string_view)>;
  using UserDefinedFormats = std::unordered_map<std::string, Predicate>;
  enum class Status : int8_t { Unknown, Unimplemented, Valid, Invalid };

private:
  // This isn't actually a user format, but we don't generate any special
  // annotations for user-defined format codes, so it doesn't really matter that
  // we're putting it here. It simply reduces the number of LoC when setting up.
  std::unordered_map<std::string, Predicate> formats_{{"regex", nullptr}};

  std::unordered_map<std::string, StatelessPredicate> builtin_formats_{
      {"date", &format::date},
      {"date-time", &format::date_time},
      {"duration", &format::duration},
      {"email", &format::email},
      {"hostname", &format::hostname},
      {"idn-email", UTF32(email)},
      {"idn-hostname", UTF32(hostname)},
      {"ipv4", &format::ipv4},
      {"ipv6", &format::ipv6},
      {"iri", UTF32(uri)},
      {"iri-reference", UTF32(uri_reference)},
      {"json-pointer", CONSTRUCTS(Pointer)},
      {"relative-json-pointer", CONSTRUCTS(RelativePointer)},
      {"time", &format::time},
      {"uri", &format::uri},
      {"uri-reference", &format::uri_reference},
#if JVALIDATE_HAS_IDNA
      {"uri-template", &format::utf32<format::uri_template>},
#else
      {"uri-template", nullptr},
#endif
      {"uuid", &format::uuid},
  };

  std::unordered_map<std::string, StatelessPredicate> draft03_formats_{
      {"date", &format::date},
      // One of the weird things about draft03 - date-time allows for timezone
      // and fraction-of-second in the argument, but time only allows hh:mm:ss.
      {"date-time", &format::date_time},
      {"time", &format::draft03::time},
      {"utc-millisec", &format::draft03::utc_millisec},
      {"color", &format::draft03::css_2_1_color},
      {"style", nullptr},
      {"phone", &format::draft03::e_123_phone},
      {"uri", &format::uri},
      {"email", &format::email},
      {"ip-address", &format::ipv4},
      {"ipv6", &format::ipv6},
      {"host-name", &format::hostname},
  };

public:
  FormatValidator() = default;
  explicit(false) FormatValidator(Predicate is_regex) {
    formats_.insert_or_assign("regex", is_regex);
  }
  FormatValidator(UserDefinedFormats formats, Predicate is_regex) : formats_(std::move(formats)) {
    formats_.insert_or_assign("regex", is_regex);
  }

  Status operator()(std::string const & format, schema::Version for_version,
                    std::string_view text) const {
    auto const & supported =
        for_version == schema::Version::Draft03 ? draft03_formats_ : builtin_formats_;
    if (Status rval = (*this)(supported, format, text); rval != Status::Unknown) {
      return rval;
    }
    return (*this)(formats_, format, text);
  }

private:
  Status operator()(auto const & supported, std::string const & format,
                    std::string_view text) const {
    if (auto it = supported.find(format); it != supported.end()) {
      if (not it->second) {
        return Status::Unimplemented;
      }
      return it->second(text) ? Status::Valid : Status::Invalid;
    }
    return Status::Unknown;
  }
};
}

#undef CONSTRUCTS
#undef UTF32
/*
 NOLINTEND(readability-identifier-length,
           bugprone-inc-dec-in-conditions,
           cppcoreguidelines-avoid-magic-numbers,
           bugprone-suspicious-stringview-data-usage,
           readability-implicit-bool-conversion,
           cppcoreguidelines-narrowing-conversions,
           readability-identifier-length)
 */