# Storing a 4-bit value in the middle of an 8-bit register

I need to count from 0 to 10 and store those values in binary format in ADCON0(5:2). How do I point at bit 5 of this register? Bit 5 is named ADCON0bits.CHS3. If I store a 4 bit variable to ADCON0bits.CHS3, will bits 1 - 3 be written to bits 4 - 2 of the register?

Also, are there any 4 bit data types that I could use?

This is all on a PIC microcontroller.

Edit: I need to store 4 bits in the register like so:

``````unsigned char count = 10 //max value
[X][X][1][0][1][0][X][X]
``````

This is in line with what was assumed below, but I figured I would clear up my question a bit.

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## 4 Answers

Writing to a bit variable stores the truth value of that variable to the bit. For example, writing:

``````ADCON0bits.CHS3 = 3;
``````

will set that bit to 1.

If bit5 refers to the bit masked by 0x20 (00100000) and you need to store the 4 bit number in bits masked 0x3c (00111100) then you can use bit shifts and bitwise operations:

``````// First clear bits 1-5:
ADCON0 &= ~0x3c;

// Now set the bits to correct value:
ADCON0 |= (count << 2); // <-- remember to shift 2 bits to the left
``````

update: As mentioned by Ian in the comments. This sets ADCON0 to an intermediate value before updating. In this case it is OK since it is only selecting the A/D channel and not actually executing the conversion. But in general it's better to do:

``````unsigned char temp_adcon;

temp_adcon = ADCON0 & ~0x3c;
ADCON0 = temp_adcon | (count << 2);
``````
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So the &= operation ANDs the two values together and stores the result in ADCON0, and << shifts the value preceding it over by the number of bits following it? –  John Moffitt Jan 18 '10 at 3:33
Yes. Basicall all X= operators work this way: `+=`, `-=`, `|=`, `&=`, `*=`, `/=` etc.. –  slebetman Jan 18 '10 at 4:13
Unfortunately the code snippet above does not do what the OP wanted. Bit numbers start from zero. The count value is to go in the 4 bits 5..2 not the 5 bits 5..1 in the example mask comment, so the bit mask required is 0x3C. The value of count should be shifted up by 2, not 1. The biggest error is that the clear bits mask is applied directly to the hardware register value so that the hardware is placed into a possibly erroneous state before the count value is added in. The register should be read into a temporary holding variable for the bit manipulation before being written back. –  ʎəʞo uɐן Jan 19 '10 at 9:01
@Ian: Thanks, missed that. –  slebetman Jan 19 '10 at 9:45
You should really use Justin Smith's method below. The compiler will do the and's, or's and shifts for you without using the verbose style given here. –  Skizz Jan 19 '10 at 10:14

When you say you are writing bits 1-3 of your count into positions 4-2 of your register, do you explicitly mean you are reversing the order of the bits? In this answer I will presume that that was not what you meant.

You can express a bit field explicitly as a struct. Presuming that you are dealing with a 16 bit register, your struct could look something like this:

``````struct adcon {
unsigned char someflag    : 2;
unsigned char count       : 4;
unsigned char other_bits  : 2;
};
``````
With each struct member, you specify the number of bits. Then you can operate on the appropriate bits in the register by casting the register to the struct type, and operating on the members of the struct.

``(adcon) ADCON0.count = count;``

Edit: fixed up the code based on feedback, thanks.

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This is much cleaner than the accepted answer, althought the members should be unsigned chars and only 8 bits as the question indicated. Infact, this syntax was created for this exact purpose - mapping bits on hardware registers. –  Skizz Jan 19 '10 at 10:12
Defining the struct as bitfields is non portable. The implementation is compiler specific and the compiler may add packing bits to simplify its code generation. You will have to check your own compiler for this. –  ʎəʞo uɐן Jan 19 '10 at 10:25
@Ian: He's writing code for a PIC microcontroller, portability is not an issue. To make it portable requires using the preprocessor to create several possible structures. The syntactic cleanliness of bitfields far outweighs this portability issue. The portability issue come down to four things: top-to-bottom or bottom-to-top ordering, packing between different types (char : 1 then int : 1), crossing storage unit boundaries and maximum number of bits in a bit field. Only the first would be a problem here (once the code is changed to use unsigned chars and only one storage unit worth of bits) –  Skizz Jan 19 '10 at 10:39
As with the original slebetman answer there is a problem with the bits definition - the bit numbering should start from zero so the first field is 2 bits wide (assuming that this compiler implementation assigns the bitfields from the LSB of the processor addressable object). There could also be the same problem with intermediate values being written to the register if the compiled code generates instructions to clear the bits in the register before writing the new bits to the count portion of the register. In the embedded world you need to know what your compiler does. –  ʎəʞo uɐן Jan 19 '10 at 10:43
One would hope the compiler does load-clear-set-write rather than load-clear-write-load-set-write, but you never know. Also, you must know if the IO is symmetric, i.e. what you write is the same as what you read. For example, a write operation might set some flags and a read might get ADC values. You'd need to keep a copy of what the flags are and copy the data on IO write, i.e. use a union of the bitfield struct and an unsigned char and write the unsigned char to the IO after modifying the bitfields. –  Skizz Jan 19 '10 at 12:01

See the answers for this SO question.

Note that you are doing a read-modify-write operation. You have to be careful of race conditions when doing this. Race conditions may be caused by:

• The hardware itself changing bits in the register (e.g. A/D converter operation completes and sets flags). The design of the hardware should provide a means for you to avoid this problem—there are several possible solutions—read the manual for the micro/peripheral to find out.
• Your own interrupt routine(s) also writing to the register. If so, when your main (non-interrupt) code writes to the register, it should be done within an "interrupts disabled" context.
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my code should be the only thing touching these bits, but I will definitely keep that in mind –  John Moffitt Jan 18 '10 at 3:37

I'm not sure about the exact register ADCON0, but often you can read the register, mask the 4 bits and insert your count and then use that value to write back to the register.

Just in case, masking is performed with an AND operation and inserting is an OR operation with the count shift over 2 bits in your case.

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