#ifndef __INS_HPP #define __INS_HPP extern const instruc_t Instructions[]; enum nameNum ENUM_SIZE(uint16) { m740_null = 0, // null instruction m740_adc, // add with carry m740_and, // logical and m740_asl, // arithmetic shift left m740_bbc, // branch on bit clear m740_bbs, // branch on bit set m740_bcc, // branch on carry clear m740_bcs, // branch on carry set m740_beq, // branch on equal m740_bit, // test bit in memory with accumulator m740_bmi, // branch on result minus m740_bne, // branch on not equal m740_bpl, // branch on result plus m740_bra, // branch always m740_brk, // force break m740_bvc, // branch on overflow clear m740_bvs, // branch on overflow set m740_clb, // clear bit m740_clc, // clear carry flag m740_cld, // clear decimal mode m740_cli, // clear interrupt disable status m740_clt, // clear transfer flag m740_clv, // clear overflow flag m740_cmp, // compare m740_com, // complement m740_cpx, // compare memory and index register X m740_cpy, // compare memory and index register Y m740_dec, // decrement by one m740_dex, // decrement index register X by one m740_dey, // decrement index register Y by one m740_div, // divide memory by accumulator m740_eor, // exclusive or memory with accumulator m740_inc, // increment by one m740_inx, // increment index register X by one m740_iny, // increment index register Y by one m740_jmp, // jump m740_jsr, // jump to subroutine m740_lda, // load accumulator with memory m740_ldm, // load immediate data to memory m740_ldx, // load index register X from memory m740_ldy, // load index register Y from memory m740_lsr, // logical shift right m740_mul, // multiply accumulator and memory m740_nop, // no operation m740_ora, // or memory with accumulator m740_pha, // push accumulator on stack m740_php, // push processor status on stack m740_pla, // pull accumulator from stack m740_plp, // pull processor status from stack m740_rol, // rotate one bit left m740_ror, // rotate one bit right m740_rrf, // rotate right of four bits m740_rti, // return from interrupt m740_rts, // return from subroutine m740_sbc, // subtract with carry m740_seb, // set bit m740_sec, // set carry flag m740_sed, // set decimal mode m740_sei, // set interrupt disable flag m740_set, // set transfert flag m740_sta, // store accumulator in memory m740_stp, // stop m740_stx, // store index register X in memory m740_sty, // store index register Y in memory m740_tax, // transfert accumulator to index register X m740_tay, // transfert accumulator to index register Y m740_tst, // test for negative or zero m740_tsx, // transfert stack pointer to index register X m740_txa, // transfert index register X to accumulator m740_txs, // transfert index register X to stack pointer m740_tya, // transfert index register Y to accumulator m740_wit, // wait m740_last }; #endif /* __INS_HPP */