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//
// POSIX spec:
//   http://pubs.opengroup.org/onlinepubs/009695399/functions/fprintf.html
//
#include "absl/strings/internal/str_format/arg.h"

#include <cassert>
#include <cerrno>
#include <cstdlib>
#include <string>
#include <type_traits>

#include "absl/base/port.h"
#include "absl/strings/internal/str_format/float_conversion.h"
#include "absl/strings/numbers.h"

namespace absl {
ABSL_NAMESPACE_BEGIN
namespace str_format_internal {
namespace {

// Reduce *capacity by s.size(), clipped to a 0 minimum.
void ReducePadding(string_view s, size_t *capacity) {
  *capacity = Excess(s.size(), *capacity);
}

// Reduce *capacity by n, clipped to a 0 minimum.
void ReducePadding(size_t n, size_t *capacity) {
  *capacity = Excess(n, *capacity);
}

template <typename T>
struct MakeUnsigned : std::make_unsigned<T> {};
template <>
struct MakeUnsigned<absl::int128> {
  using type = absl::uint128;
};
template <>
struct MakeUnsigned<absl::uint128> {
  using type = absl::uint128;
};

template <typename T>
struct IsSigned : std::is_signed<T> {};
template <>
struct IsSigned<absl::int128> : std::true_type {};
template <>
struct IsSigned<absl::uint128> : std::false_type {};

// Integral digit printer.
// Call one of the PrintAs* routines after construction once.
// Use with_neg_and_zero/without_neg_or_zero/is_negative to access the results.
class IntDigits {
 public:
  // Print the unsigned integer as octal.
  // Supports unsigned integral types and uint128.
  template <typename T>
  void PrintAsOct(T v) {
    static_assert(!IsSigned<T>::value, "");
    char *p = storage_ + sizeof(storage_);
    do {
      *--p = static_cast<char>('0' + (static_cast<size_t>(v) & 7));
      v >>= 3;
    } while (v);
    start_ = p;
    size_ = storage_ + sizeof(storage_) - p;
  }

  // Print the signed or unsigned integer as decimal.
  // Supports all integral types.
  template <typename T>
  void PrintAsDec(T v) {
    static_assert(std::is_integral<T>::value, "");
    start_ = storage_;
    size_ = numbers_internal::FastIntToBuffer(v, storage_) - storage_;
  }

  void PrintAsDec(int128 v) {
    auto u = static_cast<uint128>(v);
    bool add_neg = false;
    if (v < 0) {
      add_neg = true;
      u = uint128{} - u;
    }
    PrintAsDec(u, add_neg);
  }

  void PrintAsDec(uint128 v, bool add_neg = false) {
    // This function can be sped up if needed. We can call FastIntToBuffer
    // twice, or fix FastIntToBuffer to support uint128.
    char *p = storage_ + sizeof(storage_);
    do {
      p -= 2;
      numbers_internal::PutTwoDigits(static_cast<size_t>(v % 100), p);
      v /= 100;
    } while (v);
    if (p[0] == '0') {
      // We printed one too many hexits.
      ++p;
    }
    if (add_neg) {
      *--p = '-';
    }
    size_ = storage_ + sizeof(storage_) - p;
    start_ = p;
  }

  // Print the unsigned integer as hex using lowercase.
  // Supports unsigned integral types and uint128.
  template <typename T>
  void PrintAsHexLower(T v) {
    static_assert(!IsSigned<T>::value, "");
    char *p = storage_ + sizeof(storage_);

    do {
      p -= 2;
      constexpr const char* table = numbers_internal::kHexTable;
      std::memcpy(p, table + 2 * (static_cast<size_t>(v) & 0xFF), 2);
      if (sizeof(T) == 1) break;
      v >>= 8;
    } while (v);
    if (p[0] == '0') {
      // We printed one too many digits.
      ++p;
    }
    start_ = p;
    size_ = storage_ + sizeof(storage_) - p;
  }

  // Print the unsigned integer as hex using uppercase.
  // Supports unsigned integral types and uint128.
  template <typename T>
  void PrintAsHexUpper(T v) {
    static_assert(!IsSigned<T>::value, "");
    char *p = storage_ + sizeof(storage_);

    // kHexTable is only lowercase, so do it manually for uppercase.
    do {
      *--p = "0123456789ABCDEF"[static_cast<size_t>(v) & 15];
      v >>= 4;
    } while (v);
    start_ = p;
    size_ = storage_ + sizeof(storage_) - p;
  }

  // The printed value including the '-' sign if available.
  // For inputs of value `0`, this will return "0"
  string_view with_neg_and_zero() const { return {start_, size_}; }

  // The printed value not including the '-' sign.
  // For inputs of value `0`, this will return "".
  string_view without_neg_or_zero() const {
    static_assert('-' < '0', "The check below verifies both.");
    size_t advance = start_[0] <= '0' ? 1 : 0;
    return {start_ + advance, size_ - advance};
  }

  bool is_negative() const { return start_[0] == '-'; }

 private:
  const char *start_;
  size_t size_;
  // Max size: 128 bit value as octal -> 43 digits, plus sign char
  char storage_[128 / 3 + 1 + 1];
};

// Note: 'o' conversions do not have a base indicator, it's just that
// the '#' flag is specified to modify the precision for 'o' conversions.
string_view BaseIndicator(const IntDigits &as_digits,
                          const ConversionSpec conv) {
  // always show 0x for %p.
  bool alt = conv.has_alt_flag() || conv.conversion_char() == ConversionChar::p;
  bool hex = (conv.conversion_char() == FormatConversionChar::x ||
              conv.conversion_char() == FormatConversionChar::X ||
              conv.conversion_char() == FormatConversionChar::p);
  // From the POSIX description of '#' flag:
  //   "For x or X conversion specifiers, a non-zero result shall have
  //   0x (or 0X) prefixed to it."
  if (alt && hex && !as_digits.without_neg_or_zero().empty()) {
    return conv.conversion_char() == FormatConversionChar::X ? "0X" : "0x";
  }
  return {};
}

string_view SignColumn(bool neg, const ConversionSpec conv) {
  if (conv.conversion_char() == FormatConversionChar::d ||
      conv.conversion_char() == FormatConversionChar::i) {
    if (neg) return "-";
    if (conv.has_show_pos_flag()) return "+";
    if (conv.has_sign_col_flag()) return " ";
  }
  return {};
}

bool ConvertCharImpl(unsigned char v, const ConversionSpec conv,
                     FormatSinkImpl *sink) {
  size_t fill = 0;
  if (conv.width() >= 0) fill = conv.width();
  ReducePadding(1, &fill);
  if (!conv.has_left_flag()) sink->Append(fill, ' ');
  sink->Append(1, v);
  if (conv.has_left_flag()) sink->Append(fill, ' ');
  return true;
}

bool ConvertIntImplInnerSlow(const IntDigits &as_digits,
                             const ConversionSpec conv, FormatSinkImpl *sink) {
  // Print as a sequence of Substrings:
  //   [left_spaces][sign][base_indicator][zeroes][formatted][right_spaces]
  size_t fill = 0;
  if (conv.width() >= 0) fill = conv.width();

  string_view formatted = as_digits.without_neg_or_zero();
  ReducePadding(formatted, &fill);

  string_view sign = SignColumn(as_digits.is_negative(), conv);
  ReducePadding(sign, &fill);

  string_view base_indicator = BaseIndicator(as_digits, conv);
  ReducePadding(base_indicator, &fill);

  int precision = conv.precision();
  bool precision_specified = precision >= 0;
  if (!precision_specified)
    precision = 1;

  if (conv.has_alt_flag() && conv.conversion_char() == ConversionChar::o) {
    // From POSIX description of the '#' (alt) flag:
    //   "For o conversion, it increases the precision (if necessary) to
    //   force the first digit of the result to be zero."
    if (formatted.empty() || *formatted.begin() != '0') {
      int needed = static_cast<int>(formatted.size()) + 1;
      precision = std::max(precision, needed);
    }
  }

  size_t num_zeroes = Excess(formatted.size(), precision);
  ReducePadding(num_zeroes, &fill);

  size_t num_left_spaces = !conv.has_left_flag() ? fill : 0;
  size_t num_right_spaces = conv.has_left_flag() ? fill : 0;

  // From POSIX description of the '0' (zero) flag:
  //   "For d, i, o, u, x, and X conversion specifiers, if a precision
  //   is specified, the '0' flag is ignored."
  if (!precision_specified && conv.has_zero_flag()) {
    num_zeroes += num_left_spaces;
    num_left_spaces = 0;
  }

  sink->Append(num_left_spaces, ' ');
  sink->Append(sign);
  sink->Append(base_indicator);
  sink->Append(num_zeroes, '0');
  sink->Append(formatted);
  sink->Append(num_right_spaces, ' ');
  return true;
}

template <typename T>
bool ConvertIntArg(T v, const ConversionSpec conv, FormatSinkImpl *sink) {
  using U = typename MakeUnsigned<T>::type;
  IntDigits as_digits;

  switch (conv.conversion_char()) {
    case FormatConversionChar::c:
      return ConvertCharImpl(static_cast<unsigned char>(v), conv, sink);

    case FormatConversionChar::o:
      as_digits.PrintAsOct(static_cast<U>(v));
      break;

    case FormatConversionChar::x:
      as_digits.PrintAsHexLower(static_cast<U>(v));
      break;
    case FormatConversionChar::X:
      as_digits.PrintAsHexUpper(static_cast<U>(v));
      break;

    case FormatConversionChar::u:
      as_digits.PrintAsDec(static_cast<U>(v));
      break;

    case FormatConversionChar::d:
    case FormatConversionChar::i:
      as_digits.PrintAsDec(v);
      break;

    case FormatConversionChar::a:
    case FormatConversionChar::e:
    case FormatConversionChar::f:
    case FormatConversionChar::g:
    case FormatConversionChar::A:
    case FormatConversionChar::E:
    case FormatConversionChar::F:
    case FormatConversionChar::G:
      return ConvertFloatImpl(static_cast<double>(v), conv, sink);

    default:
      return false;
  }

  if (conv.is_basic()) {
    sink->Append(as_digits.with_neg_and_zero());
    return true;
  }
  return ConvertIntImplInnerSlow(as_digits, conv, sink);
}

template <typename T>
bool ConvertFloatArg(T v, const ConversionSpec conv, FormatSinkImpl *sink) {
  return FormatConversionCharIsFloat(conv.conversion_char()) &&
         ConvertFloatImpl(v, conv, sink);
}

inline bool ConvertStringArg(string_view v, const ConversionSpec conv,
                             FormatSinkImpl *sink) {
  if (conv.conversion_char() != FormatConversionCharInternal::s) return false;
  if (conv.is_basic()) {
    sink->Append(v);
    return true;
  }
  return sink->PutPaddedString(v, conv.width(), conv.precision(),
                               conv.has_left_flag());
}

}  // namespace

// ==================== Strings ====================
StringConvertResult FormatConvertImpl(const std::string &v,
                                      const ConversionSpec conv,
                                      FormatSinkImpl *sink) {
  return {ConvertStringArg(v, conv, sink)};
}

StringConvertResult FormatConvertImpl(string_view v, const ConversionSpec conv,
                                      FormatSinkImpl *sink) {
  return {ConvertStringArg(v, conv, sink)};
}

ArgConvertResult<FormatConversionCharSetUnion(
    FormatConversionCharSetInternal::s, FormatConversionCharSetInternal::p)>
FormatConvertImpl(const char *v, const ConversionSpec conv,
                  FormatSinkImpl *sink) {
  if (conv.conversion_char() == FormatConversionCharInternal::p)
    return {FormatConvertImpl(VoidPtr(v), conv, sink).value};
  size_t len;
  if (v == nullptr) {
    len = 0;
  } else if (conv.precision() < 0) {
    len = std::strlen(v);
  } else {
    // If precision is set, we look for the NUL-terminator on the valid range.
    len = std::find(v, v + conv.precision(), '\0') - v;
  }
  return {ConvertStringArg(string_view(v, len), conv, sink)};
}

// ==================== Raw pointers ====================
ArgConvertResult<FormatConversionCharSetInternal::p> FormatConvertImpl(
    VoidPtr v, const ConversionSpec conv, FormatSinkImpl *sink) {
  if (conv.conversion_char() != FormatConversionCharInternal::p) return {false};
  if (!v.value) {
    sink->Append("(nil)");
    return {true};
  }
  IntDigits as_digits;
  as_digits.PrintAsHexLower(v.value);
  return {ConvertIntImplInnerSlow(as_digits, conv, sink)};
}

// ==================== Floats ====================
FloatingConvertResult FormatConvertImpl(float v, const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertFloatArg(v, conv, sink)};
}
FloatingConvertResult FormatConvertImpl(double v, const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertFloatArg(v, conv, sink)};
}
FloatingConvertResult FormatConvertImpl(long double v,
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertFloatArg(v, conv, sink)};
}

// ==================== Chars ====================
IntegralConvertResult FormatConvertImpl(char v, const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(signed char v,
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(unsigned char v,
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}

// ==================== Ints ====================
IntegralConvertResult FormatConvertImpl(short v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(unsigned short v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(int v, const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(unsigned v, const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(long v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(unsigned long v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(long long v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(unsigned long long v,  // NOLINT
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(absl::int128 v,
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}
IntegralConvertResult FormatConvertImpl(absl::uint128 v,
                                        const ConversionSpec conv,
                                        FormatSinkImpl *sink) {
  return {ConvertIntArg(v, conv, sink)};
}

ABSL_INTERNAL_FORMAT_DISPATCH_OVERLOADS_EXPAND_();



}  // namespace str_format_internal

ABSL_NAMESPACE_END
}  // namespace absl