CPU status flag behavior: Difference between revisions

The flags register, also called processor status or just P, is one of the six architectural registers on the 6502 family CPU.

There are six bits in P:

7654 3210
||   ||||
||   |||+- C: 1 if last addition or shift resulted in a carry, or if
||   |||   last subtraction resulted in no borrow
||   ||+-- Z: 1 if last operation resulted in a 0 value
||   |+--- I: Interrupt priority level
||   |     (0: /IRQ and /NMI get through; 1: only /NMI gets through)
||   +---- D: 1 to make ADC and SBC use binary-coded decimal arithmetic
||         (ignored on second-source 6502 like that in the NES)
|+-------- V: 1 if last ADC or SBC resulted in signed overflow,
|          or D6 from last BIT
+--------- N: Set to bit 7 of the last operation

The B flag

There are six and only six flags in the processor status register. Despite what some 6502 references might appear to claim on a first reading, there is no "B flag" in the CPU.

Two interrupts (/IRQ and /NMI) and two instructions (PHP and BRK) push the flags to the stack. Bit 5 is always set to 1, and bit 4 is 1 if from an instruction (PHP or BRK) or 0 if from an interrupt line being pulled low (/IRQ or /NMI).

Two instructions (PLP and RTI) pull a byte from the stack and set flags. They ignore bits 5 and 4.

The only way for an IRQ handler to distinguish /IRQ from BRK is to read the flags from the stack and test bit 4. The slowness of this is one reason why BRK wasn't used as a syscall mechanism. Instead, it was more often used to trigger a patching mechanism that hung off the /IRQ vector: a single byte in PROM, UVEPROM, flash, etc. would be forced to 0, and the IRQ handler would pick something to do instead based on the program counter.

Unlike bits 5 and 4, bit 3 actually exists in P, even though it doesn't affect the ALU operation on the 2A03 or 2A07 CPU the way it does in MOS Technology's own chips.

External links

• koitsu's explanation