alwaysinline auto op_readpc() -> uint8 { return op_read((regs.pc.b << 16) + regs.pc.w++); } alwaysinline auto op_readstack() -> uint8 { regs.e ? regs.s.l++ : regs.s.w++; return op_read(regs.s.w); } alwaysinline auto op_readstackn() -> uint8 { return op_read(++regs.s.w); } alwaysinline auto op_readaddr(uint32 addr) -> uint8 { return op_read(addr & 0xffff); } alwaysinline auto op_readlong(uint32 addr) -> uint8 { return op_read(addr & 0xffffff); } alwaysinline auto op_readdbr(uint32 addr) -> uint8 { return op_read(((regs.db << 16) + addr) & 0xffffff); } alwaysinline auto op_readpbr(uint32 addr) -> uint8 { return op_read((regs.pc.b << 16) + (addr & 0xffff)); } alwaysinline auto op_readdp(uint32 addr) -> uint8 { if(regs.e && regs.d.l == 0x00) { return op_read((regs.d & 0xff00) + ((regs.d + (addr & 0xffff)) & 0xff)); } else { return op_read((regs.d + (addr & 0xffff)) & 0xffff); } } alwaysinline auto op_readsp(uint32 addr) -> uint8 { return op_read((regs.s + (addr & 0xffff)) & 0xffff); } alwaysinline auto op_writestack(uint8 data) -> void { op_write(regs.s.w, data); regs.e ? regs.s.l-- : regs.s.w--; } alwaysinline auto op_writestackn(uint8 data) -> void { op_write(regs.s.w--, data); } alwaysinline auto op_writeaddr(uint32 addr, uint8 data) -> void { op_write(addr & 0xffff, data); } alwaysinline auto op_writelong(uint32 addr, uint8 data) -> void { op_write(addr & 0xffffff, data); } alwaysinline auto op_writedbr(uint32 addr, uint8 data) -> void { op_write(((regs.db << 16) + addr) & 0xffffff, data); } alwaysinline auto op_writepbr(uint32 addr, uint8 data) -> void { op_write((regs.pc.b << 16) + (addr & 0xffff), data); } alwaysinline auto op_writedp(uint32 addr, uint8 data) -> void { if(regs.e && regs.d.l == 0x00) { op_write((regs.d & 0xff00) + ((regs.d + (addr & 0xffff)) & 0xff), data); } else { op_write((regs.d + (addr & 0xffff)) & 0xffff, data); } } alwaysinline auto op_writesp(uint32 addr, uint8 data) -> void { op_write((regs.s + (addr & 0xffff)) & 0xffff, data); }