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/** Implementation of string conversions.
*
* Copyright (c) 2000-2019, Jeroen T. Vermeulen.
*
* See COPYING for copyright license. If you did not receive a file called
* COPYING with this source code, please notify the distributor of this mistake,
* or contact the author.
*/
#include "pqxx/compiler-internal.hxx"
#include <algorithm>
#include <cmath>
#include <cstring>
#include <limits>
#include <locale>
#include <system_error>
#if __cplusplus < 201703
// This is not C++17 or better. Don't use to_chars/from_chars; the code which
// uses those also relies on other C++17 features.
#if defined(PQXX_HAVE_CHARCONV_INT)
#undef PQXX_HAVE_CHARCONV_INT
#endif
#if defined(PQXX_HAVE_CHARCONV_FLOAT)
#undef PQXX_HAVE_CHARCONV_FLOAT
#endif
#endif
#if defined(PQXX_HAVE_CHARCONV_INT) || defined(PQXX_HAVE_CHARCONV_FLOAT)
#include <charconv>
#endif
#if __cplusplus >= 201703
#include <string_view>
#endif
#include "pqxx/except"
#include "pqxx/strconv"
using namespace pqxx::internal;
namespace
{
/// C string comparison.
inline bool equal(const char lhs[], const char rhs[])
{
return strcmp(lhs, rhs) == 0;
}
} // namespace
namespace pqxx
{
namespace internal
{
void throw_null_conversion(const std::string &type)
{
throw conversion_error{"Attempt to convert null to " + type + "."};
}
} // namespace pqxx::internal
} // namespace pqxx
#if defined(PQXX_HAVE_CHARCONV_INT) || defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace
{
template<typename T> void wrap_from_chars(std::string_view in, T &out)
{
using traits = pqxx::string_traits<T>;
const char *end = in.data() + in.size();
const auto res = std::from_chars(in.data(), end, out);
if (res.ec == std::errc() and res.ptr == end) return;
std::string msg;
if (res.ec == std::errc())
{
msg = "Could not parse full string.";
}
else switch (res.ec)
{
case std::errc::result_out_of_range:
msg = "Value out of range.";
break;
case std::errc::invalid_argument:
msg = "Invalid argument.";
break;
default:
break;
}
const std::string base =
"Could not convert '" + std::string(in) + "' "
"to " + traits::name();
if (msg.empty()) throw pqxx::conversion_error{base + "."};
else throw pqxx::conversion_error{base + ": " + msg};
}
/// How big of a buffer do we want for representing a T?
template<typename T> constexpr int size_buffer()
{
using lim = std::numeric_limits<T>;
// Allocate room for how many digits? There's "max_digits10" for
// floating-point numbers, but only "digits10" for integer types.
constexpr auto digits = std::max({lim::digits10, lim::max_digits10});
// Leave a little bit of extra room for signs, decimal points, and the like.
return digits + 4;
}
/// Call @c std::to_chars. It differs for integer vs. floating-point types.
template<typename TYPE, bool INTEGRAL> struct to_chars_caller;
#if defined(PQXX_HAVE_CHARCONV_INT)
/// For integer types, we pass "base 10" to @c std::to_chars.
template<typename TYPE> struct to_chars_caller<TYPE, true>
{
static std::to_chars_result call(char *begin, char *end, TYPE in)
{ return std::to_chars(begin, end, in, 10); }
};
#endif
#if defined(PQXX_HAVE_CHARCONV_FLOAT)
/// For floating-point types, we pass "general format" to @c std::to_chars.
template<typename TYPE>
template<typename TYPE> struct to_chars_caller<TYPE, true>
{
static std::to_chars_result call(char *begin, char *end, TYPE in)
{ return std::to_chars(begin, end, in, std::chars_format::general); }
};
#endif
} // namespace
namespace pqxx
{
namespace internal
{
template<typename T> std::string builtin_traits<T>::to_string(T in)
{
using traits = pqxx::string_traits<T>;
char buf[size_buffer<T>()];
// Annoying: we need to make slightly different calls to std::to_chars
// depending on whether this is an integral type or a floating-point type.
// Use to_chars_caller to hide the difference.
constexpr bool is_integer = std::numeric_limits<T>::is_integer;
const auto res = to_chars_caller<T, is_integer>::call(
buf, buf + sizeof(buf), in);
if (res.ec == std::errc()) return std::string(buf, res.ptr);
std::string msg;
switch (res.ec)
{
case std::errc::value_too_large:
msg = "Value too large.";
break;
default:
break;
}
const std::string base =
std::string{"Could not convert "} + traits::name() + " to string";
if (msg.empty()) throw pqxx::conversion_error{base + "."};
else throw pqxx::conversion_error{base + ": " + msg};
}
/// Translate @c from_string calls to @c wrap_from_chars calls.
/** The only difference is the type of the string.
*/
template<typename TYPE>
void builtin_traits<TYPE>::from_string(const char Str[], TYPE &Obj)
{ wrap_from_chars(std::string_view{Str}, Obj); }
} // namespace pqxx::internal
} // namespace pqxx
#endif // PQXX_HAVE_CHARCONV_INT || PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace
{
template<typename T> inline void set_to_Inf(T &t, int sign=1)
{
T value = std::numeric_limits<T>::infinity();
if (sign < 0) value = -value;
t = value;
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_INT)
namespace
{
[[noreturn]] void report_overflow()
{
throw pqxx::conversion_error{
"Could not convert string to integer: value out of range."};
}
/** Helper to check for underflow before multiplying a number by 10.
*
* Needed just so the compiler doesn't get to complain about an "if (n < 0)"
* clause that's pointless for unsigned numbers.
*/
template<typename T, bool is_signed> struct underflow_check;
/* Specialization for signed types: check.
*/
template<typename T> struct underflow_check<T, true>
{
static void check_before_adding_digit(T n)
{
constexpr T ten{10};
if (n < 0 and (std::numeric_limits<T>::min() / ten) > n) report_overflow();
}
};
/* Specialization for unsigned types: no check needed becaue negative
* numbers don't exist.
*/
template<typename T> struct underflow_check<T, false>
{
static void check_before_adding_digit(T) {}
};
/// Return 10*n, or throw exception if it overflows.
template<typename T> T safe_multiply_by_ten(T n)
{
using limits = std::numeric_limits<T>;
constexpr T ten{10};
if (n > 0 and (limits::max() / n) < ten) report_overflow();
underflow_check<T, limits::is_signed>::check_before_adding_digit(n);
return T(n * ten);
}
/// Add a digit d to n, or throw exception if it overflows.
template<typename T> T safe_add_digit(T n, T d)
{
assert((n >= 0 and d >= 0) or (n <=0 and d <= 0));
if ((n > 0) and (n > (std::numeric_limits<T>::max() - d))) report_overflow();
if ((n < 0) and (n < (std::numeric_limits<T>::min() - d))) report_overflow();
return n + d;
}
/// For use in string parsing: add new numeric digit to intermediate value
template<typename L, typename R>
inline L absorb_digit(L value, R digit)
{
return L(safe_multiply_by_ten(value) + L(digit));
}
template<typename T> void from_string_signed(const char Str[], T &Obj)
{
int i = 0;
T result = 0;
if (not isdigit(Str[i]))
{
if (Str[i] != '-')
throw pqxx::conversion_error{
"Could not convert string to integer: '" + std::string{Str} + "'."};
for (++i; isdigit(Str[i]); ++i)
result = absorb_digit(result, -digit_to_number(Str[i]));
}
else
{
for (; isdigit(Str[i]); ++i)
result = absorb_digit(result, digit_to_number(Str[i]));
}
if (Str[i])
throw pqxx::conversion_error{
"Unexpected text after integer: '" + std::string{Str} + "'."};
Obj = result;
}
template<typename T> void from_string_unsigned(const char Str[], T &Obj)
{
int i = 0;
T result = 0;
if (not isdigit(Str[i]))
throw pqxx::conversion_error{
"Could not convert string to unsigned integer: '" +
std::string{Str} + "'."};
for (; isdigit(Str[i]); ++i)
result = absorb_digit(result, digit_to_number(Str[i]));
if (Str[i])
throw pqxx::conversion_error{
"Unexpected text after integer: '" + std::string{Str} + "'."};
Obj = result;
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_INT
#if !defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace
{
bool valid_infinity_string(const char str[]) noexcept
{
return
equal("infinity", str) or
equal("Infinity", str) or
equal("INFINITY", str) or
equal("inf", str);
}
/// Wrapper for std::stringstream with C locale.
/** Some of our string conversions use the standard library. But, they must
* _not_ obey the system's locale settings, or a value like 1000.0 might end
* up looking like "1.000,0".
*
* Initialising the stream (including locale and tweaked precision) seems to
* be expensive though. So, create thread-local instances which we re-use.
* It's a lockless way of keeping global variables thread-safe, basically.
*
* The stream initialisation happens once per thread, in the constructor.
* And that's why we need to wrap this in a class. We can't just do it at the
* call site, or we'd still be doing it for every call.
*/
template<typename T> class dumb_stringstream : public std::stringstream
{
public:
// Do not initialise the base-class object using "stringstream{}" (with curly
// braces): that breaks on Visual C++. The classic "stringstream()" syntax
// (with parentheses) does work.
dumb_stringstream()
{
this->imbue(std::locale::classic());
this->precision(std::numeric_limits<T>::max_digits10);
}
};
/* These are hard. Sacrifice performance of specialized, nonflexible,
* non-localized code and lean on standard library. Some special-case code
* handles NaNs.
*/
template<typename T> inline void from_string_float(const char Str[], T &Obj)
{
bool ok = false;
T result;
switch (Str[0])
{
case 'N':
case 'n':
// Accept "NaN," "nan," etc.
ok = (
(Str[1]=='A' or Str[1]=='a') and
(Str[2]=='N' or Str[2]=='n') and
(Str[3] == '\0'));
result = std::numeric_limits<T>::quiet_NaN();
break;
case 'I':
case 'i':
ok = valid_infinity_string(Str);
set_to_Inf(result);
break;
default:
if (Str[0] == '-' and valid_infinity_string(&Str[1]))
{
ok = true;
set_to_Inf(result, -1);
}
else
{
thread_local dumb_stringstream<T> S;
// Visual Studio 2017 seems to fail on repeated conversions if the
// clear() is done before the seekg(). Still don't know why! See #124
// and #125.
S.seekg(0);
S.clear();
S.str(Str);
ok = static_cast<bool>(S >> result);
}
break;
}
if (not ok)
throw pqxx::conversion_error{
"Could not convert string to numeric value: '" +
std::string{Str} + "'."};
Obj = result;
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_INT)
namespace
{
template<typename T> inline std::string to_string_unsigned(T Obj)
{
if (not Obj) return "0";
// Every byte of width on T adds somewhere between 3 and 4 digits to the
// maximum length of our decimal string.
char buf[4*sizeof(T)+1];
char *p = &buf[sizeof(buf)];
*--p = '\0';
while (Obj > 0)
{
*--p = number_to_digit(int(Obj%10));
Obj = T(Obj / 10);
}
return p;
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_INT
#if !defined(PQXX_HAVE_CHARCONV_INT) || !defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace
{
template<typename T> inline std::string to_string_fallback(T Obj)
{
thread_local dumb_stringstream<T> S;
S.str("");
S << Obj;
return S.str();
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_INT || !PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace
{
template<typename T> inline std::string to_string_float(T Obj)
{
if (std::isnan(Obj)) return "nan";
if (std::isinf(Obj)) return Obj > 0 ? "infinity" : "-infinity";
return to_string_fallback(Obj);
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_INT)
namespace
{
template<typename T> inline std::string to_string_signed(T Obj)
{
if (Obj < 0)
{
// Remember--the smallest negative number for a given two's-complement type
// cannot be negated.
const bool negatable = (Obj != std::numeric_limits<T>::min());
if (negatable)
return '-' + to_string_unsigned(-Obj);
else
return to_string_fallback(Obj);
}
return to_string_unsigned(Obj);
}
} // namespace
#endif // !PQXX_HAVE_CHARCONV_INT
#if defined(PQXX_HAVE_CHARCONV_INT)
namespace pqxx
{
template void
builtin_traits<short>::from_string(const char[], short &);
template void
builtin_traits<unsigned short>::from_string(const char[], unsigned short &);
template void
builtin_traits<int>::from_string(const char[], int &);
template void
builtin_traits<unsigned int>::from_string(const char[], unsigned int &);
template void
builtin_traits<long>::from_string(const char[], long &);
template void
builtin_traits<unsigned long>::from_string(const char[], unsigned long &);
template void
builtin_traits<long long>::from_string(const char[], long long &);
template void
builtin_traits<unsigned long long>::from_string(
const char[], unsigned long long &);
} // namespace pqxx
#endif // PQXX_HAVE_CHARCONV_INT
#if defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace pqxx
{
template
void string_traits<float>::from_string(const char Str[], float &Obj);
template
void string_traits<double>::from_string(const char Str[], double &Obj);
template
void string_traits<long double>::from_string(
const char Str[],
long double &Obj);
} // namespace pqxx
#endif // PQXX_HAVE_CHARCONV_FLOAT
#if defined(PQXX_HAVE_CHARCONV_INT)
namespace pqxx
{
namespace internal
{
template
std::string builtin_traits<short>::to_string(short Obj);
template
std::string builtin_traits<unsigned short>::to_string(unsigned short Obj);
template
std::string builtin_traits<int>::to_string(int Obj);
template
std::string builtin_traits<unsigned int>::to_string(unsigned int Obj);
template
std::string builtin_traits<long>::to_string(long Obj);
template
std::string builtin_traits<unsigned long>::to_string(unsigned long Obj);
template
std::string builtin_traits<long long>::to_string(long long Obj);
template
std::string builtin_traits<unsigned long long>::to_string(
unsigned long long Obj);
} // namespace pqxx::internal
} // namespace pqxx
#endif // PQXX_HAVE_CHARCONV_INT
#if defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace pqxx
{
namespace internal
{
template
std::string builtin_traits<float>::to_string(float Obj);
template
std::string builtin_traits<double>::to_string(double Obj);
template
std::string builtin_traits<long double>::to_string(long double Obj);
} // namespace pqxx::internal
} // namespace pqxx
#endif // PQXX_HAVE_CHARCONV_FLOAT
#if !defined(PQXX_HAVE_CHARCONV_INT)
namespace pqxx
{
namespace internal
{
template<>
void builtin_traits<short>::from_string(const char Str[], short &Obj)
{ from_string_signed(Str, Obj); }
template<>
std::string builtin_traits<short>::to_string(short Obj)
{ return to_string_signed(Obj); }
template<>
void builtin_traits<unsigned short>::from_string(
const char Str[],
unsigned short &Obj)
{ from_string_unsigned(Str, Obj); }
template<>
std::string builtin_traits<unsigned short>::to_string(unsigned short Obj)
{ return to_string_unsigned(Obj); }
template<>
void builtin_traits<int>::from_string(const char Str[], int &Obj)
{ from_string_signed(Str, Obj); }
template<>
std::string builtin_traits<int>::to_string(int Obj)
{ return to_string_signed(Obj); }
template<>
void builtin_traits<unsigned int>::from_string(
const char Str[],
unsigned int &Obj)
{ from_string_unsigned(Str, Obj); }
template<>
std::string builtin_traits<unsigned int>::to_string(unsigned int Obj)
{ return to_string_unsigned(Obj); }
template<>
void builtin_traits<long>::from_string(const char Str[], long &Obj)
{ from_string_signed(Str, Obj); }
template<>
std::string builtin_traits<long>::to_string(long Obj)
{ return to_string_signed(Obj); }
template<>
void builtin_traits<unsigned long>::from_string(
const char Str[],
unsigned long &Obj)
{ from_string_unsigned(Str, Obj); }
template<>
std::string builtin_traits<unsigned long>::to_string(unsigned long Obj)
{ return to_string_unsigned(Obj); }
template<>
void builtin_traits<long long>::from_string(const char Str[], long long &Obj)
{ from_string_signed(Str, Obj); }
template<>
std::string builtin_traits<long long>::to_string(long long Obj)
{ return to_string_signed(Obj); }
template<>
void builtin_traits<unsigned long long>::from_string(
const char Str[],
unsigned long long &Obj)
{ from_string_unsigned(Str, Obj); }
template<>
std::string builtin_traits<unsigned long long>::to_string(
unsigned long long Obj)
{ return to_string_unsigned(Obj); }
} // namespace pqxx::internal
} // namespace pqxx
#endif // !PQXX_HAVE_CHARCONV_INT
#if !defined(PQXX_HAVE_CHARCONV_FLOAT)
namespace pqxx
{
namespace internal
{
template<>
void builtin_traits<float>::from_string(const char Str[], float &Obj)
{ from_string_float(Str, Obj); }
template<>
std::string builtin_traits<float>::to_string(float Obj)
{ return to_string_float(Obj); }
template<>
void builtin_traits<double>::from_string(const char Str[], double &Obj)
{ from_string_float(Str, Obj); }
template<>
std::string builtin_traits<double>::to_string(double Obj)
{ return to_string_float(Obj); }
template<>
void builtin_traits<long double>::from_string(
const char Str[], long double &Obj)
{ from_string_float(Str, Obj); }
template<>
std::string builtin_traits<long double>::to_string(long double Obj)
{ return to_string_float(Obj); }
} // namespace pqxx::internal
} // namespace pqxx
#endif // !PQXX_HAVE_CHARCONV_FLOAT
namespace pqxx
{
namespace internal
{
template<> void builtin_traits<bool>::from_string(const char Str[], bool &Obj)
{
bool OK, result=false;
switch (Str[0])
{
case 0:
result = false;
OK = true;
break;
case 'f':
case 'F':
result = false;
OK = not (
(Str[1] != '\0') and
(not equal(Str+1, "alse")) and
(not equal(Str+1, "ALSE")));
break;
case '0':
{
int I;
string_traits<int>::from_string(Str, I);
result = (I != 0);
OK = ((I == 0) or (I == 1));
}
break;
case '1':
result = true;
OK = (Str[1] == '\0');
break;
case 't':
case 'T':
result = true;
OK = not (
(Str[1] != '\0') and
(not equal(Str+1, "rue")) and
(not equal(Str+1, "RUE")));
break;
default:
OK = false;
}
if (not OK)
throw conversion_error{
"Failed conversion to bool: '" + std::string{Str} + "'."};
Obj = result;
}
template<> std::string builtin_traits<bool>::to_string(bool Obj)
{
return Obj ? "true" : "false";
}
} // namespace pqxx::internal
} // namespace pqxx
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