# zybino: LR35902ish racket language very early days for now. in the racket repl (comments for reader comprehension, remove before running): ``` (run-vm #x150 #x150 #x16 ; start-address, end-memory-view-addr, number-bytes-view '(#x3E #x69 ; LD A, $69 #x26 #x01 ; LD H, $01 #x2E #x62 ; LD L, $62 #x77 ; LD (HL), A #x2E #x5B ; LD L, $5B #x36 #xE6 ; LD (HL), $E6 ($E6 is the opcode for XOR $xx) #x10 ; STOP (this instruction @ address $015B) #xF0 ; (non-instruction, will be arg for previous byte) #x2E #x63 ; LD L, $63 #x77 ; LD (HL), A #x10 ; STOP )) ``` will evaluate to: ``` PC: $0161, SP: $0000, Flags: %00000000 BC: $0000, DE: $0000 HL: $0163, AF: $6000 (HL): $60 $0150 > $3e $69 $26 $01 $2e $62 $77 $2e $5b $36 $e6 $e6 $f0 $2e $63 $77 $10 $00 $69 $60 $00 $00 < $0165 ``` here we can see the program loaded starting from address `$0150`, including the `XOR` instruction loaded to `$015B` during execution, and the `$69` we loaded to memory, along with the result of `XOR $F0` we loaded to memory, at `$0162` and `$0163` respectively. ## notes currently supported instructions are: * `LD [reg], #imm` * `LD [reg], [reg]` * `XOR #imm` * `AND #imm` * `OR #imm` * `STOP` * `NOP` all other instructions treated as `NOP`