I am using the AR Drone SDK to program the drone. In the docs, is says this:
The number -0.8 is stored in memory as a 32- bit word whose value is BF4CCCCD(16), according to the IEEE-754 format. This 32-bit word can be considered as holding the 32-bit integer value -1085485875(10). So the command to send will be AT*PCMD=xx,xx,-1085485875,xx,xx.
How are they arriving at -1085485875 for the decimal representation of the binary conversion? It doesnt make sense to me. Using this page: http://kipirvine.com/asm/workbook/floating_tut.htm and this page: http://www.madirish.net/240 and this page http://cs.furman.edu/digitaldomain/more/ch6/dec_frac_to_bin.htm , this is what I came up with:
decimal value = -0.8 binary value of decimal (-0.8) = -.11001100110011001100110 biased exponent (move above decimal over once to right) = 127 - 1 = 126 = 01111110 sign, exponent, mantissa (mantissa: drop off the 1 to left of decimal point, pad to 23) = 1 01111110 10011001100110011001100 10111111010011001100110011001100 = 3209481420 (10) BF4CCCCC (16).
The docs says its -1085485875 (10) and BF4CCCCD (16)
What am I doing wrong here???
Since I am writing an AR DRONE application with node/js, if I use these node.js functions:
var buffer = new Buffer(4); buffer.writeFloatBE(-0.8, 0); return -~parseInt(buffer.toString('hex'), 16) - 1;
I get the correct result as per the documentation. I just don't get what I am doing wrong when I write it out long hand. I want to understand what is going on. Any help is really appreciated.