# gbz80(7) — CPU opcode reference

## DESCRIPTION

This is the list of opcodes supported by rgbasm(1), including a short description, the number of bytes needed to encode them and the number of CPU cycles at 1MHz (or 2MHz in GBC dual speed mode) needed to complete them.

Note: All arithmetic/logic operations that use register
**A** as destination can omit the destination as it is assumed
it's register **A**. The following two lines have the same
effect:

OR A,B OR B

## LEGEND

List of abbreviations used in this document.

`r8`- Any of the 8-bit registers (
**A**,**B**,**C**,**D**,**E**,**H**,**L**). `r16`- Any of the general-purpose 16-bit registers
(
**BC**,**DE**,**HL**). `n8`- 8-bit integer constant.
`n16`- 16-bit integer constant.
`e8`- 8-bit offset
(
`-`

**128**to**127**). `u3`- 3-bit unsigned integer constant
(
**0**to**7**). `cc`- Condition codes:
`vec`- One of the
`RST`vectors (**0x00**,**0x08**,**0x10**,**0x18**,**0x20**,**0x28**,**0x30**and**0x38**).

## INSTRUCTION OVERVIEW

### 8-bit Arithmetic and Logic Instructions

### 16-bit Arithmetic Instructions

### Bit Operations Instructions

### Bit Shift Instructions

### Load Instructions

### Jumps and Subroutines

### Stack Operations Instructions

### Miscellaneous Instructions

## INSTRUCTION REFERENCE

### ADC A,r8

Add the value in `r8` plus the carry flag to
**A**.

Cycles: 1

Bytes: 1

Flags:

### ADC A,[HL]

Add the value pointed by **HL** plus the carry flag
to **A**.

Cycles: 2

Bytes: 1

Flags: See ADC A,r8

### ADC A,n8

Add the value `n8` plus the carry flag to
**A**.

Cycles: 2

Bytes: 2

Flags: See ADC A,r8

### ADD A,r8

Add the value in `r8` to
**A**.

Cycles: 1

Bytes: 1

Flags:

### ADD A,[HL]

Add the value pointed by **HL** to
**A**.

Cycles: 2

Bytes: 1

Flags: See ADD A,r8

### ADD A,n8

Add the value `n8` to **A**.

Cycles: 2

Bytes: 2

Flags: See ADD A,r8

### ADD HL,r16

Add the value in `r16` to
**HL**.

Cycles: 2

Bytes: 1

Flags:

### ADD HL,SP

Add the value in **SP** to **HL**.

Cycles: 2

Bytes: 1

Flags: See ADD HL,r16

### ADD SP,e8

Add the signed value `e8` to
**SP**.

Cycles: 4

Bytes: 2

Flags:

### AND A,r8

Bitwise AND between the value in `r8` and
**A**.

Cycles: 1

Bytes: 1

Flags:

### AND A,[HL]

Bitwise AND between the value pointed by **HL** and
**A**.

Cycles: 2

Bytes: 1

Flags: See AND A,r8

### AND A,n8

Bitwise AND between the value in `n8` and
**A**.

Cycles: 2

Bytes: 2

Flags: See AND A,r8

### BIT u3,r8

Test bit `u3` in register
`r8`, set the zero flag if bit not set.

Cycles: 2

Bytes: 2

Flags:

### BIT u3,[HL]

Test bit `u3` in the byte pointed by
**HL**, set the zero flag if bit not set.

Cycles: 3

Bytes: 2

Flags: See BIT u3,r8

### CALL n16

Call address `n16`.

Cycles: 6

Bytes: 3

Flags: None affected.

### CALL cc,n16

Call address `n16` if condition
`cc` is met.

Cycles: 6/3

Bytes: 3

Flags: None affected.

### CCF

Complement Carry Flag.

Cycles: 1

Bytes: 1

Flags:

### CP A,r8

Subtract the value in `r8` from
**A** and set flags accordingly, but don't store the
result.

Cycles: 1

Bytes: 1

Flags:

### CP A,[HL]

Subtract the value pointed by **HL** from
**A** and set flags accordingly, but don't store the
result.

Cycles: 2

Bytes: 1

Flags: See CP A,r8

### CP A,n8

Subtract the value `n8` from
**A** and set flags accordingly, but don't store the
result.

Cycles: 2

Bytes: 2

Flags: See CP A,r8

### CPL

Complement accumulator (**A** =
**~A**).

Cycles: 1

Bytes: 1

Flags:

### DAA

Decimal adjust register A to get a correct BCD representation after an arithmetic instruction.

Cycles: 1

Bytes: 1

Flags:

### DEC r8

Decrement value in register `r8` by 1.

Cycles: 1

Bytes: 1

Flags:

### DEC [HL]

Decrement the value pointed by **HL** by 1.

Cycles: 3

Bytes: 1

Flags: See DEC r8

### DEC r16

Decrement value in register `r16` by 1.

Cycles: 2

Bytes: 1

Flags: None affected.

### DEC SP

Decrement value in register **SP** by 1.

Cycles: 2

Bytes: 1

Flags: None affected.

### DI

Disable Interrupts.

Cycles: 1

Bytes: 1

Flags: None affected.

### EI

Enable Interrupts.

Cycles: 1

Bytes: 1

Flags: None affected.

### HALT

Enter CPU low power mode.

Cycles: -

Bytes: 1

Flags: None affected.

### INC r8

Increment value in register `r8` by 1.

Cycles: 1

Bytes: 1

Flags:

### INC [HL]

Increment the value pointed by **HL** by 1.

Cycles: 3

Bytes: 1

Flags: See INC r8

### INC r16

Increment value in register `r16` by 1.

Cycles: 2

Bytes: 1

Flags: None affected.

### INC SP

Increment value in register **SP** by 1.

Cycles: 2

Bytes: 1

Flags: None affected.

### JP n16

Absolute jump to address `n16`.

Cycles: 4

Bytes: 3

Flags: None affected.

### JP cc,n16

Absolute jump to address `n16` if condition
`cc` is met.

Cycles: 4/3

Bytes: 3

Flags: None affected.

### JP HL

Jump to address in **HL**, that is, load
**PC** with value
in register **HL**.

Cycles: 1

Bytes: 1

Flags: None affected.

### JR e8

Relative jump by adding `e8` to the current
address.

Cycles: 3

Bytes: 2

Flags: None affected.

### JR cc,e8

Relative jump by adding `e8` to the current
address if condition `cc` is met.

Cycles: 3/2

Bytes: 2

Flags: None affected.

### LD r8,r8

Store value in register on the right into register on the left.

Cycles: 1

Bytes: 1

Flags: None affected.

### LD r8,n8

Load value `n8` into register
`r8`.

Cycles: 2

Bytes: 2

Flags: None affected.

### LD r16,n16

Load value `n16` into register
`r16`.

Cycles: 3

Bytes: 3

Flags: None affected.

### LD [HL],r8

Store value in register `r8` into byte pointed
by register **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD [HL],n8

Store value `n8` into byte pointed by register
**HL**.

Cycles: 3

Bytes: 2

Flags: None affected.

### LD r8,[HL]

Load value into register `r8` from byte
pointed by register **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD [r16],A

Store value in register **A** into address pointed
by register `r16`.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD [n16],A

Store value in register **A** into address
`n16`.

Cycles: 4

Bytes: 3

Flags: None affected.

### LD [$FF00+n8],A

Store value in register **A** into high RAM or I/O
registers.

The following synonym forces this encoding: **LDH
[$FF00+n8],A**

Cycles: 3

Bytes: 2

Flags: None affected.

### LD [$FF00+C],A

Store value in register **A** into high RAM or I/O
registers.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD A,[r16]

Load value in register **A** from address pointed by
register `r16`.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD A,[n16]

Load value in register **A** from address
`n16`.

Cycles: 4

Bytes: 3

Flags: None affected.

### LD A,[$FF00+n8]

Load value in register **A** from high RAM or I/O
registers.

The following synonym forces this encoding: **LDH
A,[$FF00+n8]**

Cycles: 3

Bytes: 2

Flags: None affected.

### LD A,[$FF00+C]

Load value in register **A** from high RAM or I/O
registers.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD [HL+],A

Store value in register **A** into byte pointed by
**HL** and post-increment **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD [HL-],A

Store value in register **A** into byte pointed by
**HL** and post-decrement **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD A,[HL+]

Load value into register **A** from byte pointed by
**HL** and post-increment **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD A,[HL-]

Load value into register **A** from byte pointed by
**HL** and post-decrement **HL**.

Cycles: 2

Bytes: 1

Flags: None affected.

### LD SP,n16

Load value `n16` into register
**SP**.

Cycles: 3

Bytes: 3

Flags: None affected.

### LD [n16],SP

Store **SP** into addresses
`n16` (LSB) and `n16` + 1 (MSB).

Cycles: 5

Bytes: 3

Flags: None affected.

### LD HL,SP+e8

Add the signed value `e8` to
**SP** and store the result in
**HL.**

Cycles: 3

Bytes: 2

Flags:

### LD SP,HL

Load register **HL** into register
**SP**.

Cycles: 2

Bytes: 1

Flags: None affected.

### NOP

No operation.

Cycles: 1

Bytes: 1

Flags: None affected.

### OR A,r8

Bitwise OR between the value in `r8` and
**A**.

Cycles: 1

Bytes: 1

Flags:

### OR A,[HL]

Bitwise OR between the value pointed by **HL** and
**A**.

Cycles: 2

Bytes: 1

Flags: See OR A,r8

### OR A,n8

Bitwise OR between the value in `n8` and
**A**.

Cycles: 2

Bytes: 2

Flags: See OR A,r8

### POP AF

Pop register **AF** from the stack.

Cycles: 3

Bytes: 1

Flags: None affected.

### POP r16

Pop register `r16` from the stack.

Cycles: 3

Bytes: 1

Flags: None affected.

### PUSH AF

Push register **AF** into the stack.

Cycles: 4

Bytes: 1

Flags: None affected.

### PUSH r16

Push register `r16` into the stack.

Cycles: 4

Bytes: 1

Flags: None affected.

### RES u3,r8

Set bit `u3` in register
`r8` to 0.

Cycles: 2

Bytes: 2

Flags: None affected.

### RES u3,[HL]

Set bit `u3` in the byte pointed by
**HL** to 0.

Cycles: 4

Bytes: 2

Flags: None affected.

### RET

Return from subroutine.

Cycles: 4

Bytes: 1

Flags: None affected.

### RET cc

Return from subroutine if condition `cc` is
met.

Cycles: 5/2

Bytes: 1

Flags: None affected.

### RETI

Return from subroutine and enable interrupts.

Cycles: 4

Bytes: 1

Flags: None affected.

### RL r8

Rotate register `r8` left through carry.

Cycles: 2

Bytes: 2

Flags:

### RL [HL]

Rotate value pointed by **HL** left through
carry.

Cycles: 4

Bytes: 2

Flags: See RL r8

### RLA

Rotate register **A** left through carry.

Cycles: 1

Bytes: 1

Flags:

### RLC r8

Rotate register `r8` left.

Cycles: 2

Bytes: 2

Flags:

### RLC [HL]

Rotate value pointed by **HL** left.

Cycles: 4

Bytes: 2

Flags: See RLC r8

### RLCA

Rotate register **A** left.

Cycles: 1

Bytes: 1

Flags:

### RR r8

Rotate register `r8` right through carry.

Cycles: 2

Bytes: 2

Flags:

### RR [HL]

Rotate value pointed by **HL** right through
carry.

Cycles: 4

Bytes: 2

Flags: See RR r8

### RRA

Rotate register **A** right through carry.

Cycles: 1

Bytes: 1

Flags:

### RRC r8

Rotate register `r8` right.

Cycles: 2

Bytes: 2

Flags:

### RRC [HL]

Rotate value pointed by **HL** right.

Cycles: 4

Bytes: 2

Flags: See RRC r8

### RRCA

Rotate register **A** right.

Cycles: 1

Bytes: 1

Flags:

### RST vec

Call restart vector `vec`.

Cycles: 4

Bytes: 1

Flags: None affected.

### SBC A,r8

Subtract the value in `r8` and the carry flag
from **A**.

Cycles: 1

Bytes: 1

Flags:

### SBC A,[HL]

Subtract the value pointed by **HL** and the carry
flag from **A**.

Cycles: 2

Bytes: 1

Flags: See SBC A,r8

### SBC A,n8

Subtract the value `n8` and the carry flag
from **A**.

Cycles: 2

Bytes: 2

Flags: See SBC A,r8

### SCF

Set Carry Flag.

Cycles: 1

Bytes: 1

Flags:

### SET u3,r8

Set bit `u3` in register
`r8` to 1.

Cycles: 2

Bytes: 2

Flags: None affected.

### SET u3,[HL]

Set bit `u3` in the byte pointed by
**HL** to 1.

Cycles: 4

Bytes: 2

Flags: None affected.

### SLA r8

Shift left arithmetic register `r8`.

Cycles: 2

Bytes: 2

Flags:

### SLA [HL]

Shift left arithmetic value pointed by **HL**.

Cycles: 4

Bytes: 2

Flags: See SLA r8

### SRA r8

Shift right arithmetic register `r8`.

Cycles: 2

Bytes: 2

Flags:

### SRA [HL]

Shift right arithmetic value pointed by **HL**.

Cycles: 4

Bytes: 2

Flags: See SRA r8

### SRL r8

Shift right logic register `r8`.

Cycles: 2

Bytes: 2

Flags:

### SRL [HL]

Shift right logic value pointed by **HL**.

Cycles: 4

Bytes: 2

Flags: See SRA r8

### STOP

Enter CPU very low power mode. Also used to switch between double and normal speed CPU modes in GBC.

Cycles: -

Bytes: 2

Flags: None affected.

### SUB A,r8

Subtract the value in `r8` from
**A**.

Cycles: 1

Bytes: 1

Flags:

### SUB A,[HL]

Subtract the value pointed by **HL** from
**A**.

Cycles: 2

Bytes: 1

Flags: See SUB A,r8

### SUB A,n8

Subtract the value `n8` from
**A**.

Cycles: 2

Bytes: 2

Flags: See SUB A,r8

### SWAP r8

Swap upper 4 bits in register `r8` and the
lower ones.

Cycles: 2

Bytes: 2

Flags:

### SWAP [HL]

Swap upper 4 bits in the byte pointed by **HL** and
the lower ones.

Cycles: 4

Bytes: 2

Flags: See SWAP r8

### XOR A,r8

Bitwise XOR between the value in `r8` and
**A**.

Cycles: 1

Bytes: 1

Flags:

### XOR A,[HL]

Bitwise XOR between the value pointed by **HL** and
**A**.

Cycles: 2

Bytes: 1

Flags: See XOR A,r8

### XOR A,n8

Bitwise XOR between the value in `n8` and
**A**.

Cycles: 2

Bytes: 2

Flags: See XOR A,r8

## SEE ALSO

## HISTORY

`rgbds`

was originally written by Carsten
Sørensen as part of the ASMotor package, and was later packaged in
RGBDS by Justin Lloyd. It is now maintained by a number of contributors at
https://github.com/rednex/rgbds.