# How (in matlab/simulink) to convert an octetstring to a short array of doubles?

I want convert an octetstring to a short array of doubles. The challenge is to compress more then two characters to a double value. One character is easy (just use the value of the character and convert it to a double). So an 'a' can be converted to '97.0' . Two characters can also be simple. 'ab' can be converted to '97.98'. But how two convert three characters to a double? Please take into account rounding in matlab.

The reason why I want to do this is that all data needs to be sent to another product which only accepts doubles.

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Here's a hint:

say I want to code three letters in a double,

``````n=97.098099;
``````

I convert it to string:

``````ns=num2str(n,9);
``````

Then I can select the right range of elements of the string vectors to decompose it to the characters I want to encode to

``````nd=numel(num2str(round(n)));
range=reshape(2:7,[],2);

f(1)=str2num(ns(1:nd));
f(2)=str2num(ns(nd+range(:,1)));
f(3)=str2num(ns(nd+range(:,2)));

char(f)

ans =
abc
``````

Of course, you can use a loop, you'll need to think of the cases that deal with when the number ends with a zero for example 100.100, and you don't have to use the `num2str` \ `str2num`. But as I said, just a hint...

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A double precision uses 8 bytes = 64 bits.
An ASCII character uses 1 bytes, but typical ASCIIencoding only uses the first 7 bits.

So, if we restrict ourselves to standard ASCII characters (in the 1 -- 127 range) we should be able to fit 9 characters into each double, since 7*9=63<64.

(We even have 1 bit to spare, we we could fit another character into each group of 7 doubles, but I'll leave that optimization out. We're also leaving out any discussion of unicode, but this will work for many applications.)

There are a few Matlab commands to note:

1. typecast: performs type conversions without modifying the underlying bits. We'll use this to convert from `double` to/from `uint64`.

2. bitshift: performs bit shifting on integer data types. Can also saturate data, retaining only the lowest N bits.

3. bitor: performs what the name implies .. bit level OR operation on unsigned integers.

Then, after a bit of experimentation, we can take some string:

``````strIn = 'How much wood could a woodchuck chuck if a woodchuck could chuck wood?';
``````

Then we can encode it to as `asDouble` array (via `asUint64`) using the following loop:

``````%Convert into doubles.  9 characters per double, 7 bits each.
asUint64 = zeros(1,ceil(length(strIn)/9),'uint64');
for ixChar = 1:length(strIn);
ixUint64 = ceil(ixChar/9);  %Which uint64 are we writing to?
ix7Group = mod(ixChar, 9);  %Which 7-bit piece are we writing to?

%Create the encoded value
curChar = strIn(ixChar);
encoded = bitshift(uint64(curChar), ix7Group*7);

%OR it into the current uint64
asUint64(ixUint64) = bitor(asUint64(ixUint64), encoded);
end
asDouble = typecast(asUint64,'double');
``````

And we can convert it back using a very similar loop

``````    %Convert back to str
strOut = char(zeros(1,length(asDouble)*9));

asUint64Out =  typecast(asDouble,'uint64');
for ixChar = 1:length(strOut);
ixUint64 = ceil(ixChar/9);    %Which uint64 are we reading from?
ix7Group = mod(ixChar, 9);    %Which 7-bit piece are we reading from?

%Use bitshift to get only the desired bits
encodedOut = bitshift(asUint64Out(ixUint64), -ix7Group*7, 7);

%Cast to a char and store
strOut(ixChar) = char(encodedOut);
end
%Strip unset characters
strOut(strOut==0)=[];
``````

For what it's worth, the `asDouble` array is below, but it's pretty dangerous to think about it in decimal at this point:

``````>> asDouble'
5.56929305361178e+196
6.06383983172222e+259
8.04093567858749e+177
3.37314706618397e+259
2.82456187483837e+266
1.79945353109827e-150
3.3731457960492e+259
2.81037121975641e-306
``````

As binary is a better way to think about it:

``````0110100011000111110101110110101000001110111110111110010000100000
0111010111011111100011010000011001001101111110111111101111101100
0110010011011111101111111011101000001100001010000011001001100011
0111010111010001100011010000011010111100011111010111010001100011
0111011101000001100001010000011001101101001010000011010111101111
0010000011010111100011111010111010001100011110010011011111100011
0111010111010001100011010000011001001101100111010111011111100011
0000000001111111100100110111111011111110111010000011010110000000
``````
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