====== Introduction ====== This is a list of the opcodes used in the 65816 processor. It is used by the Super Nintendo System (SNES) console. For the registers, the following convention will be used: ^ Convention ^Description | | A |the low byte of the accumulator, always 8-bit | | B |the high byte of the accumulator, always 8-bit | | C |the low and high bytes of the accumulator, always 16-bit | | X |the X register, 8-bit or 16-bit | | Y |the Y register, 8-bit or 16-bit | | P |the processor register, always 8-bit | For the opcode arguments, the following convention will be used: ^ Argument ^Example ^Relative to | | addr |LDA $1234 |memory address, short, 16-bit | | const |LDA #$80 |constant, 8-bit or 16-bit | | dp |LDA $10 |direct page, relative, 8-bit | | long |LDA $C21234|memory address, long, 24-bit | | near |BRA $1234 |branch, relative, 8-bit | | sr |LDA $01,S |stack, relative, 8-bit | ===== LDA, LDX, LDY ===== Reads a value from the memory and stores it in the specified register. LDA will store in the A or C register, LDX will store in the X register and LDY will store in the Y register. ^flags ^ |n highest bit of value loaded | |z set if data loaded is zero | ^ Opcode ^Syntax ^ Bytes ^Notes | | A1 |LDA (dp,X) | 2 | | | A3 |LDA sr,S | 2 | | | A5 |LDA dp | 2 | | | A7 |LDA [dp] | 2 | | | A9 |LDA const | 2 |One extra byte if in 16-bit mode | | AD |LDA addr | 3 | | | AF |LDA long | 4 | | | B1 |LDA (dp),Y | 2 | | | B2 |LDA (dp) | 2 | | | B3 |LDA (sr,S),Y | 2 | | | B5 |LDA dp,X | 2 | | | B7 |LDA [dp],Y | 2 | | | B9 |LDA addr,Y | 3 | | | BD |LDA addr,X | 3 | | | BF |LDA long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | A2 |LDX const | 2 |One extra byte if in 16-bit mode | | A6 |LDX dp | 2 | | | AE |LDX addr | 3 | | | B6 |LDX dp,Y | 2 | | | BE |LDX addr,Y | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | A0 |LDY const | 2 |One extra byte if in 16-bit mode | | A4 |LDY dp | 2 | | | AC |LDY addr | 3 | | | B4 |LDY dp,X | 2 | | | BC |LDY addr,X | 3 | | ===== STA, STX, STY ===== Reads a value from the specified register and stores it in the memory. STA will read the A or C register, STX will read the X register and STY will read the Y register. All opcodes will store the retrieved value in the specified address. The STZ opcode will always store the value of zero in the designed memory address. Unlike the STA, STX and STY opcodes, the STZ opcode doesn't affect flags. It also doesn't affect the A or C register. ^ Opcode ^Syntax ^ Bytes ^Notes | | 81 |STA (dp,X) | 2 | | | 83 |STA sr,S | 2 | | | 85 |STA dp | 2 | | | 87 |STA [dp] | 2 | | | 8D |STA addr | 3 | | | 8F |STA long | 4 | | | 91 |STA (dp),Y | 2 | | | 92 |STA (dp) | 2 | | | 93 |STA (sr,S),Y | 2 | | | 95 |STA dp,X | 2 | | | 97 |STA [dp],Y | 2 | | | 99 |STA addr,Y | 3 | | | 9D |STA addr,X | 3 | | | 9F |STA long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 86 |STX dp | 2 | | | 8E |STX addr | 3 | | | 96 |STX dp,Y | 2 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 84 |STY dp | 2 | | | 8C |STY addr | 3 | | | 94 |STY dp,X | 2 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 64 |STZ dp | 2 | | | 74 |STZ dp,X | 2 | | | 9C |STZ addr | 3 | | | 9E |STZ addr,X | 3 | | ===== TRB, TSB ===== Test all bits in the A or C register. For all bits set in the A or C register, the correspondent bits will be set or unset in the designed memory address. TSB will set the correspondent bits and TRB will reset the correspondent bits. All clear bits in the A or C register will be ignored and their correspondent bits in the designed address will not be altered. ^ Opcode ^Syntax ^ Bytes ^Notes | | 14 |TRB dp | 2 | | | 1C |TRB addr | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 04 |TSB dp | 2 | | | 0C |TSB addr | 3 | | ===== ADC, SBC ===== Add or subtract the value in the A or C register with the value in the designed memory address. ADC will add the value and SBC will subtract the value. When the carry flag is set, a value of one will be added in the addition or subtraction operation. The operation can overflow or underflow. It is the coder responsibility to check these cases and adjust the resulting value. A common method is to check the carry flag for overflow or underflow and cap the value to a prefixed setting. ^flags ^ |n set if highest bit of result was set | |v set if signed overflow? | |z set if result is zero | |c set if overflow or underflow | ^ Opcode ^Syntax ^ Bytes ^Notes | | 61 |ADC (dp,X) | 2 | | | 63 |ADC sr,S | 2 | | | 65 |ADC dp | 2 | | | 67 |ADC [dp] | 2 | | | 69 |ADC const | 2 |One extra byte if in 16-bit mode | | 6D |ADC addr | 3 | | | 6F |ADC long | 4 | | | 71 |ADC (dp),Y | 2 | | | 72 |ADC (dp) | 2 | | | 73 |ADC (sr,S),Y | 2 | | | 75 |ADC dp,X | 2 | | | 77 |ADC [dp],Y | 2 | | | 79 |ADC addr,Y | 3 | | | 7D |ADC addr,X | 3 | | | 7F |ADC long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | E1 |SBC (dp,X) | 2 | | | E3 |SBC sr,S | 2 | | | E5 |SBC dp | 2 | | | E7 |SBC [dp] | 2 | | | E9 |SBC const | 2 |One extra byte if in 16-bit mode | | ED |SBC addr | 3 | | | EF |SBC long | 4 | | | F1 |SBC (dp),Y | 2 | | | F2 |SBC (dp) | 2 | | | F3 |SBC (sr,S),Y | 2 | | | F5 |SBC dp,X | 2 | | | F7 |SBC [dp],Y | 2 | | | F9 |SBC addr,Y | 3 | | | FD |SBC addr,X | 3 | | | FF |SBC long,X | 4 | | ===== INC, INX, INY, DEC, DEX, DEY ===== Increment or decrement the specified register by one. It is equivalent to the ADC or SBC opcodes with the value of one without the carry flag set. INC will increment the A or C register. INX will increment the X register. INY will increment the Y register. DEC will decrement the A or C register. DEX will decrement the X register. DEY will decrement the Y register. The operation can underflow or overflow. INC and DEC can also increment or decrement a value in memory instead of the A or C register. ^flags ^ |n set if most significant bit of result is set | |z set if result is zero | ^ Opcode ^Syntax ^ Bytes ^Notes | | 1A |INC | 1 |increment the A or C register | | C8 |INY | 1 |increment the Y register | | E6 |INC dp | 2 | | | E8 |INX | 1 |increment the X register | | EE |INC addr | 3 | | | F6 |INC dp,X | 2 | | | FE |INC addr,X | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 3A |DEC | 1 |decrement the A or C register | | 88 |DEY | 1 |decrement register Y | | C6 |DEC dp | 2 | | | CA |DEX | 1 |decrement register X | | CE |DEC addr | 3 | | | D6 |DEC dp,X | 2 | | | DE |DEC addr,X | 3 | | ===== AND, ORA, EOR ===== A binary operation is done between the register A or C and the memory. The AND opcode will do a binary AND, the ORA opcode will do a binary OR and the EOR opcode will do a binary XOR. The result will be stored in the A or C register. ^flags ^ |n set if highest bit is set | |z set if result is zero | ^ Opcode ^Syntax ^ Bytes ^Notes | | 21 |AND (dp,X) | 2 | | | 23 |AND sr,S | 2 | | | 25 |AND dp | 2 | | | 27 |AND [dp] | 2 | | | 29 |AND const | 2 |One extra bit if in 16-bit mode | | 2D |AND addr | 3 | | | 2F |AND long | 4 | | | 31 |AND (dp),Y | 2 | | | 32 |AND (dp) | 2 | | | 33 |AND (sr,S),Y | 2 | | | 35 |AND dp,X | 2 | | | 37 |AND [dp],Y | 2 | | | 39 |AND addr,Y | 3 | | | 3D |AND addr,X | 3 | | | 3F |AND long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 01 |ORA (dp,X) | 2 | | | 03 |ORA sr,S | 2 | | | 05 |ORA dp | 2 | | | 07 |ORA [dp] | 2 | | | 09 |ORA const | 2 |One extra byte if in 16-bit mode | | 0D |ORA addr | 3 | | | 0F |ORA long | 4 | | | 11 |ORA (dp),Y | 2 | | | 12 |ORA (dp) | 2 | | | 13 |ORA (sr,S),Y | 2 | | | 15 |ORA dp,X | 2 | | | 17 |ORA [dp],Y | 2 | | | 19 |ORA addr,Y | 3 | | | 1D |ORA addr,X | 3 | | | 1F |ORA long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 41 |EOR (dp,X) | 2 | | | 43 |EOR sr,S | 2 | | | 45 |EOR dp | 2 | | | 47 |EOR [dp] | 2 | | | 49 |EOR const | 2 |One extra byte if in 16-bit mode | | 4D |EOR addr | 3 | | | 4F |EOR long | 4 | | | 51 |EOR (dp),Y | 2 | | | 52 |EOR (dp) | 2 | | | 53 |EOR (sr,S),Y | 2 | | | 55 |EOR dp,X | 2 | | | 57 |EOR [dp],Y | 2 | | | 59 |EOR addr,Y | 3 | | | 5D |EOR addr,X | 3 | | | 5F |EOR long,X | 4 | | ===== BIT ===== Does a binary AND between the A or C register and the memory. Unlike the AND opcode, the binary AND operation doesn't alter the A or C register. ^flags ^ |n Takes value of most significant bit of memory data | |v Takes value from bit 6 or 14 of memory data | |z Set if logical AND of mem and acc is zero. | ^ Opcode ^Syntax ^ Bytes ^Notes | | 24 |BIT dp | 2 | | | 2C |BIT addr | 3 | | | 34 |BIT dp,X | 2 | | | 3C |BIT addr,X | 3 | | | 89 |BIT const | 2 | Add one extra bit if in 16-bit mode | ===== CMP, CPX, CPY ===== Compare the designed register with the memory and sets flags based on the comparison. CMP will compare the A or C register, CPX will compare the X register and CPY will compare the Y register. Generally, a conditional branch opcode, based on a flag status, is used after these opcodes. ^flags ^ |n set if most significant bit of result is set | |z set if result is zero | |c set if register is equal or greater than memory | ^ Opcode ^Syntax ^ Bytes ^Notes | | C1 |CMP (dp,X) | 2 | | | C3 |CMP sr,S | 2 | | | C5 |CMP dp | 2 | | | C7 |CMP [dp] | 2 | | | C9 |CMP const | 2 |One extra byte if in 16-bit mode | | CD |CMP addr | 3 | | | CF |CMP long | 4 | | | D1 |CMP (dp),Y | 2 | | | D2 |CMP (dp) | 2 | | | D3 |CMP (sr,S),Y | 2 | | | D5 |CMP dp,X | 2 | | | D7 |CMP [dp],Y | 2 | | | D9 |CMP addr,Y | 3 | | | DD |CMP addr,X | 3 | | | DF |CMP long,X | 4 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | E0 |CPX const | 2 |One extra byte if in 16-bit mode | | E4 |CPX dp | 2 | | | EC |CPX addr | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | C0 |CPY const | 2 |One extra byte if in 16-bit mode | | C4 |CPY dp | 2 | | | CC |CPY addr | 3 | | ===== LSR, ASL ===== Shift bits in the designed register or memory address left or right. The LSR opcode will shift the bits right and the ASL opcode will shift the bits left. LSR is equivalent to divide the number by two and ASL is equivalent to multiply the number by two. The operation can underflow or overflow. The bit shifted out will become the new carry. The bit shifted in is zero. ^flags: LSR ^ |n cleared | |z set if result is zero | |c bit zero becomes new carry | ^flags: ASL ^ |n set if most significant bit of result is set | |z set if result is zero | |c set if highest bit is moved into carry | ^ Opcode ^Syntax ^ Bytes ^Notes | | 46 |LSR dp | 2 | | | 4A |LSR | 1 |shift A or C register | | 4E |LSR addr | 3 | | | 56 |LSR dp,X | 2 | | | 5E |LSR addr,X | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 06 |ASL dp | 2 | | | 0A |ASL | 1 |the operand is the register A | | 0E |ASL addr | 3 | | | 16 |ASL dp,X | 2 | | | 1E |ASL addr,X | 3 | | ===== ROL, ROR ===== Shift bits in the designed register or memory address left or right. The ROL opcode will shift the bits left and the ROR opcode will shift the bits right. The bit shifted in is the old carry. The bit shifted out will be the new carry. ^ flags: ROL ^ |n set if most significant bit of result is set | |z set if result is zero | |c the high bit (7 or 15) becomes the new carry | ^ flags: ROR ^ |n set if most significant bit of result is set | |z set if result is zero | |c low bit becomes the new carry | ^ Opcode ^Syntax ^ Bytes ^Notes | | 26 |ROL dp | 2 | | | 2A |ROL | 1 |affects register A or C | | 2E |ROL addr | 3 | | | 36 |ROL dp,X | 2 | | | 3E |ROL addr,X | 3 | | ^ Opcode ^Syntax ^ Bytes ^Notes | | 66 |ROR dp | 2 | | | 6A |ROR | 1 |affects register A or C | | 6E |ROR addr | 3 | | | 76 |ROR dp,X | 2 | | | 7E |ROR addr,X | 3 | | ===== BPL, BMI, BRA, BCC, BCS, BNE, BEQ, BVC, BVS, BRL ===== Change the execution flow based on a conditional branch. If the condition is meet, the execution flow will be changed for the designed address. Otherwise, it continues normally. The majority of the conditional branches are based in flag status. The flags were setup by anterior opcodes. ^ flags: | |none | ^ Opcode ^Syntax ^ Bytes ^Notes | | 10 |BPL near | 2 |BPL - branch if minus flag is clear, branch if plus | | 30 |BMI near | 2 |BMI - branch if minus flag set, branch if minus | | 50 |BVC near | 2 |BVC - branch if overflow clear | | 70 |BVS near | 2 |BVS - branch if overflow set | | 80 |BRA near | 2 |BRA - always branch | | 82 |BRL addr | 3 |similar to BRA, but with longer range | | 90 |BCC near | 2 |BCC - branch if carry flag clear | | B0 |BCS near | 2 |BCS - branch if carry flag set | | D0 |BNE near | 2 |BNE - branch if zero flag clear, branch if not equal | | F0 |BEQ near | 2 |BEQ - branch if zero flag set, branch if equal | ===== JMP ===== Change the execution flow to the designed address. ^ flags: | |none | ^ Opcode ^Syntax ^ Bytes ^Notes | | 4C |JMP addr | 3 | | | 5C |JMP long | 4 | | | 6C |JMP (addr) | 3 | | | 7C |JMP (addr,X) | 3 | | | DC |JMP [addr] | 3 | | ===== JSR, JSL ===== Calls a sub routine which will be executed. The JSR opcode will put two bytes in the stack, relative to the return address. It is expected that they will be retrieved by an RTS opcode in the sub routine. The JSL opcode will put three bytes in the stack, relative to the return address. It is expected that they will be retrieved by an RTL opcode in the sub routine. ^ Opcode ^Syntax ^ Bytes ^Notes | | 20 |JSR addr | 3 | | | 22 |JSL long | 4 | | | FC |JSR (addr,X) | 3 | | ===== RTS, RTL ====== RTS will pull two bytes from the stack and RTL will pull three bytes from the stack. They will be setup as the new control flow address. It is expected that the bytes in the stack were pushed from a JSR opcode for the RTS opcode and from a JSL opcode for the RTL opcode. ^ flags: | |none | ^ Opcode ^Syntax ^ Bytes ^Notes | | 60 |RTS | 1 |pull two bytes from the stack as the return address | | 6B |RTL | 1 |pull three bytes from the stack as the return address | ===== CLC, CLD, CLI, CLV, SEC, SED, SEI ===== Set or reset flags. ^ Opcode ^Syntax ^ Bytes ^Notes | | 18 |CLC | 1 |clear carry flag | | 38 |SEC | 1 |set carry flag | | 58 |CLI | 1 |clear interrupt flag | | 78 |SEI | 1 |set interrupt flag | | B8 |CLV | 1 |clear overflow flag | | D8 |CLD | 1 |clear decimal flag | | F8 |SED | 1 |set decimal flag | ===== TAX, TAY, TXA, TYA, TSX, TXS, TXY, TYX, TCD, TDC, TCS, TSC ===== Transfer bytes between the specified registers or special addresses. If the setting of the registers have different settings of 8-bit or 16-bit, the copy of the high byte of the transfer can be truncated based on the opcode behavior. ^flags: all except TCS | |n set if most significant bit of transfer value is set | |z set if transferred value is zero | ^ Opcode ^Syntax ^ Bytes ^Notes | | 1B |TCS | 1 |from C to stack pointer | | 3B |TSC | 1 |from stack pointer to C | | 5B |TCD | 1 |from C to direct page | | 7B |TDC | 1 |from direct page to C | | 8A |TXA | 1 |from X register to A or C | | 98 |TYA | 1 |from Y register to A or C | | 9A |TXS | 1 |from X register to stack pointer | | 9B |TXY | 1 |from X register to Y register | | A8 |TAY | 1 |from A or C to Y register | | AA |TAX | 1 |from A or C to X register | | BA |TSX | 1 |from stack pointer to X register | | BB |TYX | 1 |from Y register to X register | ===== MVP, MVN ===== Move a block of bytes from a specified address to another address. The X register will be the start address to copy from. The Y register will be start address to copy to. The C register will be the number of bytes to copy minus one. The opcode arguments are the source bank and the destination bank, in this order. MVP must be used if the Y register is greater than the X register. Otherwise, MVN must be used instead. ^ Opcode ^Syntax ^ Bytes ^Notes | | 44 |MVP src,dest | 3 | | | 54 |MVN src,dest | 3 | | ===== PEA, PEI, PER ===== Push bytes in the stack, based on the opcodes arguments. They always work in 16-bit mode. ^ Opcode ^Syntax ^ Bytes ^Notes | | 62 |PER label | 3 | | | D4 |PEI (dp) | 2 | | | F4 |PEA const | 3 |the argument is always 16-bit | ===== PHA, PHP, PHX, PHY, PHB, PHD, PHK, PLA, PLP, PLX, PLY, PLB, PLD ===== Push or pull bytes from the stack. The setting of the register or special address as 8-bit or 16-bit will set the number of bytes pushed/pulled from the stack. ^flags: PHA/PHP/PHX/PHY/PHB/PHD/PHK ^ |none | ^flags: PLA/PLX/PLY/PLB/PLD ^ |n set if most significant bit of result is set | |z set if result is zero | ^ Opcode ^Syntax ^ Bytes ^Notes | | 08 |PHP | 1 |push flag register (8-bit) | | 0B |PHD | 1 |push direct page register (16-bit) | | 48 |PHA | 1 |push A or C register | | 4B |PHK | 1 |push program bank register (8-bit) | | 5A |PHY | 1 |push Y register (8-bit or 16-bit) | | 8B |PHB | 1 |push data bank register (8-bit) | | DA |PHX | 1 |push X register (8-bit or 16-bit) | ^ Opcode ^Syntax ^ Bytes ^Notes | | 28 |PLP | 1 |pull flag register (8-bit)(sets all flags) | | 2B |PLD | 1 |pull direct page register (16-bit) | | 68 |PLA | 1 |pull A or C register | | 7A |PLY | 1 |pull Y register (8-bit or 16-bit) | | AB |PLB | 1 |pull data bank register (8-bit) | | FA |PLX | 1 |pull X register (8-bit or 16-bit) | ===== NOP ===== Does absolutely nothing. It is mostly used to waste cycles. A few special registers or addresses can't be fetch until a minimum number of cycles has passed. If the coder needs to erase a code segment, for better performance, a branch or jump is recommended instead of a long line of NOP opcodes. ^ Opcode ^Syntax ^ Bytes ^Notes | | EA |NOP | 1 | | ===== REP, SEP ===== Setups the processor flags with the opcode argument. For each bit set in the argument, the correspondent flag is set or reset. REP will reset the flags and SEP will set the flags. ^ bits ^description | | $01 |carry flag | | $02 |zero flag | | $04 |irq flag? | | $08 |decimal mode | | $10 |X and Y register: 0 = 16-bit, 1 = 8-bit | | $20 |accumulator: 0 = 16-bit, 1 = 8-bit | | $40 |overflow flag | | $80 |negative flag | ^flags ^ |all | ^ Opcode ^Syntax ^ Bytes ^Notes | | C2 |REP const | 2 |const is always 8-bit | | E2 |SEP const | 2 |const is always 8-bit | ===== XBA ===== Exchanges the A and B registers. ^flags ^ |n set if the most significant bit of the new value in the low order 8 bits (A) of the accumulator is set. (former bit 15) | |z set if new value of the lower order 8 bit accumulator (A) is zero. | ^ Opcode ^Syntax ^ Bytes ^Notes | | EB |XBA | 1 | | ===== XCE ===== Exchanges the carry flag and the emulation flag. ^flags ^ |e from previous carry flag | |c from previous emulation flag | |m native mode flag only. switching to native 65816 mode sets to one | |x x is a native mode flag only | |b brk is an emulation 6502 flag only. it is set to 1 to become the x flag in native mode | ^ Opcode ^Syntax ^ Bytes ^Notes | | FB |XCE | 1 | | ===== Miscellaneous ===== ^ Opcode ^Syntax ^ Bytes ^Notes | | 00 |BRK | ? |software break | | 02 |COP const | ? |coprocessor empowerment | | 40 |RTI | 1 |return from interrupt | | CB |WAI | 1 |wait for interrupt | | DB |STP | 1 |stop processor |