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How do I write to a single bit? I have a variable that is either a 1 or 0 and I want to write its value to a single bit in a 8-bit reg variable.

I know this will set a bit:

reg |= mask; // mask is (1 << pin)

And this will clear a bit:

reg &= ~mask; // mask is (1 << pin)

Is there a way for me to do this in one line of code, without having to determine if the value is high or low as the input?

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register is a keyword in C. You must not use it as a name. –  Kerrek SB Sep 1 '13 at 18:48
I made a change in the question: register to reg. It needs peer approval. –  pablo1977 Sep 1 '13 at 18:58
Can't see the edit queue, changed it directly. –  viraptor Sep 1 '13 at 19:07

5 Answers 5

up vote 8 down vote accepted

Assuming value is 0 or 1:

REG = (REG & ~(1 << pin)) | (value << pin);

I use REG instead of register because as @KerrekSB pointed out in OP comments, register is a C keyword.

The idea here is we compute a value of REG with the specified bit cleared and then depending on value we set the bit.

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This actually generates branchfree code with GCC -O2 For restricting the value to {0,1} I'd suggest to use ... | ((!!value) << pin) –  wildplasser Sep 1 '13 at 19:22
@wildplasser for the general case I think this is highly compiler dependent. On some compilers I would be afraid using logical operators would actually add some branch code. –  ouah Sep 1 '13 at 19:35
IMHO it would need loops on architectures that don't have bitshift instructions in hardware (DEC alpha didnot have them, IIRC), but the reg = a | b; itself does not imply a branch, obviously. –  wildplasser Sep 1 '13 at 19:43
@wildpasser or MSP-430 which can bitwise shift only one bit at a time. –  ouah Sep 1 '13 at 19:51
IIRC the first 8088 could not shift by the CX register yet. (or was it only the 6502?) –  wildplasser Sep 1 '13 at 19:56

One overlooked feature of C is bit packing, which is great for embedded work. You can define a struct to access each bit individually.

typedef struct
    unsigned char bit0 : 1;
    unsigned char bit1 : 1;
    unsigned char bit2 : 1;
    unsigned char bit3 : 1;
    unsigned char bit4 : 1;
    unsigned char bit5 : 1;
    unsigned char bit6 : 1;
    unsigned char bit7 : 1;
} T_BitArray;

The : 1 tells the compiler that you only want each variable to be 1 bit long. And then just access the address that your variable reg sits on, cast it to your bit array and then access the bits individually.

((T_BitArray *)&reg)->bit1 = value;

&reg is the address of your variable. ((T_BitArray *)&reg) is the same address, but now the complier thinks of it as a T_BitArray address and ((T_BitArray *)&reg)->bit1 provides access to the second bit. Of course, it's best to use more descriptive names than bit1

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+1 this is a very useful abstraction that I've seen used by embedded compiler vendors in driver code for peripherals –  Morten Jensen Sep 1 '13 at 22:01
This is 100% non-portable and unsafe. Using bit fields is always a bad idea, particularly in embedded systems. What you call bit 7 in the above is not necessarily bit 7. It is not necessarily even allocated in the same byte as you hoped for. More info here. –  Lundin Sep 4 '13 at 14:06

Because you tagged this with embedded I think the best answer is:

if (set)
    reg |= mask; // mask is (1 << pin)
    reg &= ~mask; // mask is (1 << pin)

(which you can wrap in a macro or inline function). The reason being that embedded architectures like AVR have bit-set and bit-clear instructions and the cost of branching is not high compared to other instructions (as it is on a modern CPU with speculative execution). GCC can identify the idioms in that if statement and produce the right instructions. A more complex version (even if it's branchless when tested on modern x86) might not assemble to the best instructions on an embedded system.

The best way to know for sure is to disassemble the results. You don't have to be an expert (especially in embedded environments) to evaluate the results.

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for these microcontrollers, you will have to use the correct register to perform the reset and the correct one to perform the clear. Something like: if ( set) reg_set = mask; else reg_clr = mask;. Registers being defined as volatile objects, the compiler does not have the right to perform this optimization (=replacing reg with`reg_set / reg_clr`) itself. –  ouah Sep 1 '13 at 20:06
Ouah gives good advise; you can't actually tell whether reg |= mask results in a bit set or a read-mofify-write, this is CPU and compiler dependant (I'd say that it is more likely to results in the later). In cases like this, always disassemble the code to see what actually happens. –  Lundin Sep 4 '13 at 14:27

I think what you're asking is if you can execute a write instruction on a single bit without first reading the byte that it's in. If so, then no, you can't do that. Has nothing to do with the C language, just microprocessors don't have instructions that address single bits. Even in raw machine code, if you want to set a bit you have to read the byte it's in, change the bit, then write it back. There's just no other way to do it.

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actually for GPIO a lot of microcontrollers have special registers that allow you to set or clear bits without the need to perform a read first. –  ouah Sep 1 '13 at 19:14
Yeah it's called bit-banding –  Trevor Arjeski Sep 1 '13 at 19:41
Cool. I suspect that the OP is asking about general-purpose RAM, though. –  Lee Daniel Crocker Sep 1 '13 at 19:46
On ARM Cortex-M bit-banding and possible on on-chip RAM and peripheral registers. –  Clifford Sep 1 '13 at 20:30
Shan't downvote, but there is another way - many micros have SET and CLEAR registers for ports, I've posted it as an answer. OP is tagged [embedded] so I'll assume it's applicable. –  John U Sep 4 '13 at 15:01

Duplicate of how do you set, clear, and toggle a single bit and I'll repost my answer too as no-one's mentioned SET and CLEAR registers yet:

As this is tagged "embedded" I'll assume you're using a microcontroller. All of the above suggestions are valid & work (read-modify-write, unions, structs, etc.).

However, during a bout of oscilloscope-based debugging I was amazed to find that these methods have a considerable overhead in CPU cycles compared to writing a value directly to the micro's PORTnSET / PORTnCLEAR registers which makes a real difference where there are tight loops / high-frequency ISR's toggling pins.

For those unfamiliar: In my example, the micro has a general pin-state register PORTn which reflects the output pins, so doing PORTn |= BIT_TO_SET results in a read-modify-write to that register.

However, the PORTnSET / PORTnCLEAR registers take a '1' to mean "please make this bit 1" (SET) or "please make this bit zero" (CLEAR) and a '0' to mean "leave the pin alone". so, you end up with two port addresses depending whether you're setting or clearing the bit (not always convenient) but a much faster reaction and smaller assembled code.

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