std::modf
From cppreference.com
| Defined in header <cmath>
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| float modf( float x, float* iptr ); |
(1) | |
| double modf( double x, double* iptr ); |
(2) | |
| long double modf( long double x, long double* iptr ); |
(3) | |
1-3) Decomposes given floating point value
x into integral and fractional parts, each having the same type and sign as x. The integral part (in floating-point format) is stored in the object pointed to by iptr.Parameters
| x | - | floating point value |
| iptr | - | pointer to floating point value to store the integral part to |
Return value
If no errors occur, returns the fractional part of x with the same sign as x. The integral part is put into the value pointed to by iptr.
The sum of the returned value and the value stored in *iptr gives x (allowing for rounding)
Error handling
This function is not subject to any errors specified in math_errhandling
If the implementation supports IEEE floating-point arithmetic (IEC 60559),
- If
xis ±0, ±0 is returned, and ±0 is stored in *iptr. - If
xis ±∞, ±0 is returned, and ±∞ is stored in *iptr. - If
xis NaN, NaN is returned, and NaN is stored in *iptr. - The returned value is exact, the current rounding mode is ignored
Notes
This function behaves as if implemented as follows:
double modf(double x, double* iptr) { #pragma STDC FENV_ACCESS ON int save_round = std::fegetround(); std::fesetround(FE_TOWARDZERO); *iptr = std::nearbyint(x); std::fesetround(save_round); return std::copysign(std::isinf(x) ? 0.0 : x - (*iptr), x); }
Example
Compares different floating-point decomposition functions
Run this code
#include <iostream> #include <cmath> #include <limits> int main() { double f = 123.45; std::cout << "Given the number " << f << " or " << std::hexfloat << f << std::defaultfloat << " in hex,\n"; double f3; double f2 = std::modf(f, &f3); std::cout << "modf() makes " << f3 << " + " << f2 << '\n'; int i; f2 = std::frexp(f, &i); std::cout << "frexp() makes " << f2 << " * 2^" << i << '\n'; i = std::ilogb(f); std::cout << "logb()/ilogb() make " << f/std::scalbn(1.0, i) << " * " << std::numeric_limits<double>::radix << "^" << std::ilogb(f) << '\n'; // special values f2 = std::modf(-0.0, &f3); std::cout << "modf(-0) makes " << f3 << " + " << f2 << '\n'; f2 = std::modf(-INFINITY, &f3); std::cout << "modf(-Inf) makes " << f3 << " + " << f2 << '\n'; }
Possible output:
Given the number 123.45 or 0x1.edccccccccccdp+6 in hex, modf() makes 123 + 0.45 frexp() makes 0.964453 * 2^7 logb()/ilogb() make 1.92891 * 2^6 modf(-0) makes -0 + -0 modf(-Inf) makes -INF + -0
See also
| (C++11) |
nearest integer not greater in magnitude than the given value (function) |
| C documentation for modf
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