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Let's assume my protocol defines a message lenght (without overhead) of 40 Bytes. There are 20 variables/information included, with different lenght.

While reading the message, I create the messageContent[byteNumber] of each read Byte.

If I want to save, say the first of those 20 variables that is 284in decimal, it would be 0001 0001 1100 in binary. But that is one and a half Byte, and only full Bytes are transmitted. So I would recive 0001 0001 0000 1100?

That would mean that messageContent[0] = 0001 0001 and messageContent[1] = 0000 1100.

Then I want to declare my variable value01:

uint32_t value01= messageContent[0] + messageContent[1].

I have 5 questions to this subject:

  1. As a 32 Bit int, it should look like 0000 0000 0000 0000 0000 0001 0001 1100, right?

  2. So my definition of value01 is wrong, because it would somehow try to sum up three binary numbers. How to get around this? I need to tell the program, that the first 0001 0001 is not a 17, but a 272 (=17+255). The second byte would then be the missing 12, so 1100.

  3. How are those bytes treated internally? How does the program know, that it is for example 1110 in binary and not 1110 in decimal?

  4. If I save the value01 on a SD-card with cout << value01, how much is the file on the card getting bigger? 32 Bit = 4 Bytes?

  5. If I know that one value of those 40 Byte-message won't exceed the value of 15, could I use the type uint8_t instead of uint32_tand save space on the card? In the end after decades of values, there is only one CSV-file.

Thanks for taking the time to read this stuff.

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Beware endianness! –  John Dibling Nov 6 '13 at 16:39
    
Please see: en.wikipedia.org/wiki/Endianness. If you're going to be doing this kind of stuff, you have to know about endianness first. –  John Dibling Nov 6 '13 at 16:44
    
Do you refer to the 284 = 0001 0001 0000 1100? So it should be 0000 0001 0001 1100? –  user2366975 Nov 6 '13 at 16:47
    
It's going to be either 0000 0001 0001 1100 or 1100 0001 0001 0000 depending on the endianness of the hardware. –  John Dibling Nov 6 '13 at 16:48
    
You can discover the endianness you are working with by using code like ` #include <iostream> using namespace std; typedef unsigned char byte; bool testEndianness() { byte test[2]= { 1, 0 }; if( *(short *) test== 1 ) {return true;} else { return false;} } int main() { cout << "Hello World, Am I little endian?" << testEndianness()<< endl; return 0; } ` That's a trick from games programming :) let me know if you need more information. –  GMasucci Nov 6 '13 at 16:50

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