Increment a python floating point
value by the smallest possible amount
You are not crazy and you should be able to do this. It is a current shortcoming of the Python math library, sadly, both in Python 2.X and Python3000. There should be a
math.nextafter(x,y) in Python but there isn't. It would be trivial to add since most C compilers have the functions.
The nextafter(x,y) functions return the next discretely different representable floating-point value following x in the direction of y. The nextafter() functions are guaranteed to work on the platform or to return a sensible value to indicate that the next value is not possible.
nextafter() functions are part of POSIX and ISO C99 standards and is _nextafter() in Visual C. C99 compliant standard math libraries, Visual C, C++, Boost and Java all implement the IEEE recommended nextafter() functions or methods. (I do not honestly know if .NET has nextafter(). Microsoft does not care much about C99 or POSIX.)
Since Python seems to be heading in the direction of supporting most C99 math functions and behaviors for the math module, the exclusion of
nextafter() is curious. Luckily there are easy workarounds.
None of the bit twiddling functions here fully or correctly deal with the edge cases, such as values going though 0.0, negative 0.0, subnormals, infinities, negative values, over or underflows, etc. Here is a reference implementation of nextafter() in C to give an idea of how to do the correct bit twiddling if that is your direction.
There are two solid work arounds to get
nextafter() or other excluded POSIX math functions in Python:
>>> import numpy
>>> numpy.nextafter(.1, 1)
>>> numpy.nextafter(1e6, -1)
>>> numpy.nextafter(-.1, 1)
Link directly to the system math DLL:
from sys import platform as _platform
if _platform == "linux" or _platform == "linux2":
_libm = ctypes.cdll.LoadLibrary('libm.so.6')
_funcname = 'nextafter'
elif _platform == "darwin":
_libm = ctypes.cdll.LoadLibrary('libSystem.dylib')
_funcname = 'nextafter'
elif _platform == "win32":
_libm = ctypes.cdll.LoadLibrary('msvcrt.dll')
_funcname = '_nextafter'
# these are the ones I have access to...
# fill in library and function name for your system math dll
print "Platform", repr(_platform), "is not supported"
_nextafter = getattr(_libm, _funcname)
_nextafter.restype = ctypes.c_double
_nextafter.argtypes = [ctypes.c_double, ctypes.c_double]
def nextafter(x, y):
"Returns the next floating-point number after x in the direction of y."
return _nextafter(x, y)
assert nextafter(0, 1) - nextafter(0, 1) == 0
assert 0.0 + nextafter(0, 1) > 0.0
And if you really really want a pure Python solution:
# handles edge cases correctly on MY computer
# not extensively QA'd...
# 'double' means IEEE 754 double precision -- c 'double'
epsilon = math.ldexp(1.0, -53) # smallest double that 0.5+epsilon != 0.5
maxDouble = float(2**1024 - 2**971) # From the IEEE 754 standard
minDouble = math.ldexp(1.0, -1022) # min positive normalized double
smallEpsilon = math.ldexp(1.0, -1074) # smallest increment for doubles < minFloat
infinity = math.ldexp(1.0, 1023) * 2
"""returns the next IEEE double after x in the direction of y if possible"""
return y #if x==y, no increment
# handle NaN
if x!=x or y!=y:
return x + y
if x >= infinity:
if x <= -infinity:
if -minDouble < x < minDouble:
if y > x:
return x + smallEpsilon
return x - smallEpsilon
m, e = math.frexp(x)
if y > x:
m += epsilon
m -= epsilon
Or, use Mark Dickinson's excellent solution
Obviously the Numpy solution is the easiest.