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I need to transmit a value that is larger than 65535 via two different hex strings so that when the strings are received, they can be concatenated to form the integer again. For example if the value was 70000 then the two strings would be 0x0001 and 0x1170.

I thought it would be as simple as converting the integer to hex then shifting it right by 4 to get the top string and removing all but the last 4 characters for the bottom.

I think I might be struggling with some syntax (fairly new to Python) and probably some of the logic too. Can anyone think of an easy way to do this?


share|improve this question
Wouldn't it be easier to just send the data as a String? – Hunter McMillen Jun 20 '12 at 16:52
what have you tried? – Ashwini Chaudhary Jun 20 '12 at 16:53
Could you explain why? – Jon Clements Jun 20 '12 at 16:53
I am using the Modbus protocol which requires me to send them as two hexadecimal numbers (one for each register) – Kreuzade Jun 20 '12 at 16:58
up vote 2 down vote accepted

Use divmod builtin function:

>>> [hex(x) for x in divmod(70000, 65536)]
['0x1', '0x1170']
share|improve this answer
for 65540 it returns ['0x1', '0x4'] and hex(65540) equals 0x10004, means you lost three 0's. – Ashwini Chaudhary Jun 20 '12 at 17:12
Well, you'll need something like ['%#06x' % x for x in divmod(num, 65536)] if you need the full four digits in each string. But you don't; the simple way to reverse this is (int(big) << 16) | int(small) – abarnert Jun 20 '12 at 17:14

Your algorithm can be implemented easily, as in Lev Levitsky's answer:

hex(big)[2:-4], hex(big)[-4:]

However, it will fail for numbers under 65536.

You could fix that, but you're probably better off splitting the number, then converting the two halves into hex, instead of splitting the hex string.

ecatmur's answer is probably the simplest way to do this:

[hex(x) for x in divmod(70000, 65536)]

Or you could translate your "shift right/truncate" algorithm on the numbers like this:

hex(x >> 16), hex(x & 0xFFFF)

If you need these to be strings like '0x0006' rather than '0x6', instead of calling hex on the parts, you can do this:

['%#06x' % (x,) for x in divmod(x, 65536)]

Or, using the more modern string formatting style:

['0x{:04x}'.format(x) for x in divmod(x, 65536)]

But on the other side, you again probably want to undo this by converting to ints first and then shifting and masking the numbers, instead of concatenating the strings. The inverse of ecatmur's answer is:

int(bighalf) * 65536 + int(smallhalf)

The (equivalent) inverse of the shift/mask implementation is:

(int(bighalf) << 16) | int(smallhalf)

And in that case, you don't need the extra 0s on the left.

It's also worth pointing out that none of these algorithms will work if the number can be negative, or greater than 4294967295, but only because the problem is impossible in those cases.

share|improve this answer
try to solve 65540 using ecatmur's method. – Ashwini Chaudhary Jun 20 '12 at 17:18
Yes, it returns 0x1 for the big half and 0x4 for the small half. If you put those back together with the inverse operation int(0x1) * 65536 + int(0x4), you get 65540 back. – abarnert Jun 20 '12 at 17:19
+1 '%#06x' makes it works fine. – Ashwini Chaudhary Jun 20 '12 at 17:27

You mean like this?

In [1]: big = 12345678
In [2]: first, second = hex(big)[2:][:-4], hex(big)[2:][-4:]
In [3]: first, second
Out[3]: ('bc', '614e')

In [4]: int(first+second, 16)
Out[4]: 12345678
share|improve this answer
This won't work for numbers under 65536. For example, with 1234, you'll get '' and 'x4d2'. – abarnert Jun 20 '12 at 17:09
@abarnert The OP explicitly stated it was > 65536, but OK, the edit should fix it. – Lev Levitsky Jun 20 '12 at 17:27
Well, it sort of works now, if you consider '' to be a reasonable hex representation of 0. But from the OP's post, I don't think he does: "the two strings would be 0x0001 and 0x1170". – abarnert Jun 20 '12 at 17:47
@abarnert Fair enough. Well, I don't think I can improve the answer without rewriting it from scratch, and besides a proper answer has been given. – Lev Levitsky Jun 20 '12 at 17:51
I suppose your answer is ideal for pointing out the flaw in the original problem description, because it implements exactly what was in the spec. – abarnert Jun 20 '12 at 18:00

Being wary of big/little endians, what you could do to keep it simple is:

val = 70000
to_send = '{:08X}'.format(val) # '00011170'
decoded = int('00011170', 16) # 70000

EDIT: to be very clear then...

hex1, hex2 = to_send[:4], to_send[4:] # send these two and on receipt
my_number = int(hex1 + hex2, 16)
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This doesn't answer the OP's main question, which is how to split the one big number (or hex string) into two halves. – abarnert Jun 20 '12 at 17:22
@abarnert I'm trusting that the OP can slice the result string into 4 chars each, and I believe his issue was how to generate them – Jon Clements Jun 20 '12 at 17:24

for numbers greater than 65536 or for numbers whose with length >=5, you can use slicing:

>>> num=70000
>>> var1=hex(num)[:-4]
>>> var2='0x'+hex(num)[-4:]
>>> integ=int(var1+var2[2:],16)
>>> print(integ)
share|improve this answer
This only works for 5-digit hex numbers. Try it with num=7000000 instead; you'll get 0x6 and 0xacfc0, which is wrong. – abarnert Jun 20 '12 at 17:06
@abarnert just to stick to OP's method I changed the slicing. – Ashwini Chaudhary Jun 20 '12 at 17:19
Your new method now handles numbers over 5 digits long, but still doen't work on numbers under 5 digits. Try it with 1, and you'll get '', '0x0x1'. Of course that's a problem with the OP's original description, that you've just faithfully implemented. But the answer probably won't help him unless you explain that problem, and show how to work around it. – abarnert Jun 20 '12 at 17:21
@abarnert I think the OP is only concerned with numbers larger than 65536. – Ashwini Chaudhary Jun 20 '12 at 17:31
I doubt it. Look at his comment: he needs to send two hexadecimal numbers, one for each register. If his value happens to be, say, 20000, I doubt he wants to send 20000 to the low register and leave around whatever value happens to be sitting in the high register; he probably wants to send 20000 and 0. – abarnert Jun 20 '12 at 17:44

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