Python 2.6 on Redhat 6.3
I have a device that saves 32 bit floating point value across 2 memory registers, split into most significant word and least significant word. I need to convert this to a float. I have been using the following code found on SO and it is similar to code I have seen elsewhere
#!/usr/bin/env python import sys from ctypes import * first = sys.argv second = sys.argv reading_1 = str(hex(int(first)).lstrip("0x")) reading_2 = str(hex(int(second)).lstrip("0x")) sample = reading_1 + reading_2 def convert(s): i = int(s, 16) # convert from hex to a Python int cp = pointer(c_int(i)) # make this into a c integer fp = cast(cp, POINTER(c_float)) # cast the int pointer to a float pointer return fp.contents.value # dereference the pointer, get the float print convert(sample)
an example of the register values would be ;
this produces the resulting float of
A perfectly cromulent number, however sometimes the memory values are something like;
which, using this function results in a float of;
which is a fantastically small number and not a number that seems to be correct. This device should be producing readings around the 1.2, 1.3 range.
What I am trying to work out is if the device is throwing bogus values or whether the values I am getting are correct but the function I am using is not properly able to convert them.
Also is there a better way to do this, like with numpy or something of that nature? I will hold my hand up and say that I have just copied this code from examples on line and I have very little understanding of how it works, however it seemed to work in the test cases that I had available to me at the time.