#define call (this->*op) template uint8> auto SPC700::op_adjust(uint8_t& r) -> void { op_io(); r = call(r); } template uint8> auto SPC700::op_adjust_addr() -> void { dp.l = op_readpc(); dp.h = op_readpc(); rd = op_read(dp); rd = call(rd); op_write(dp, rd); } template uint8> auto SPC700::op_adjust_dp() -> void { dp = op_readpc(); rd = op_readdp(dp); rd = call(rd); op_writedp(dp, rd); } auto SPC700::op_adjust_dpw(int n) -> void { dp = op_readpc(); rd.w = op_readdp(dp) + n; op_writedp(dp++, rd.l); rd.h += op_readdp(dp); op_writedp(dp++, rd.h); regs.p.n = rd & 0x8000; regs.p.z = rd == 0; } template uint8> auto SPC700::op_adjust_dpx() -> void { dp = op_readpc(); op_io(); rd = op_readdp(dp + regs.x); rd = call(rd); op_writedp(dp + regs.x, rd); } auto SPC700::op_branch(bool condition) -> void { rd = op_readpc(); if(condition == false) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_branch_bit() -> void { dp = op_readpc(); sp = op_readdp(dp); rd = op_readpc(); op_io(); if((bool)(sp & (1 << (opcode >> 5))) == (bool)(opcode & 0x10)) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_pull(uint8_t& r) -> void { op_io(); op_io(); r = op_readsp(); } auto SPC700::op_push(uint8 r) -> void { op_io(); op_io(); op_writesp(r); } template uint8> auto SPC700::op_read_addr(uint8_t& r) -> void { dp.l = op_readpc(); dp.h = op_readpc(); rd = op_read(dp); r = call(r, rd); } template uint8> auto SPC700::op_read_addri(uint8_t& r) -> void { dp.l = op_readpc(); dp.h = op_readpc(); op_io(); rd = op_read(dp + r); regs.a = call(regs.a, rd); } template uint8> auto SPC700::op_read_const(uint8_t& r) -> void { rd = op_readpc(); r = call(r, rd); } template uint8> auto SPC700::op_read_dp(uint8_t& r) -> void { dp = op_readpc(); rd = op_readdp(dp); r = call(r, rd); } template uint8> auto SPC700::op_read_dpi(uint8_t& r, uint8_t& i) -> void { dp = op_readpc(); op_io(); rd = op_readdp(dp + i); r = call(r, rd); } template uint16> auto SPC700::op_read_dpw() -> void { dp = op_readpc(); rd.l = op_readdp(dp++); if(op != &SPC700::op_cpw) op_io(); rd.h = op_readdp(dp++); regs.ya = call(regs.ya, rd); } template uint8> auto SPC700::op_read_idpx() -> void { dp = op_readpc() + regs.x; op_io(); sp.l = op_readdp(dp++); sp.h = op_readdp(dp++); rd = op_read(sp); regs.a = call(regs.a, rd); } template uint8> auto SPC700::op_read_idpy() -> void { dp = op_readpc(); op_io(); sp.l = op_readdp(dp++); sp.h = op_readdp(dp++); rd = op_read(sp + regs.y); regs.a = call(regs.a, rd); } template uint8> auto SPC700::op_read_ix() -> void { op_io(); rd = op_readdp(regs.x); regs.a = call(regs.a, rd); } auto SPC700::op_set_addr_bit() -> void { dp.l = op_readpc(); dp.h = op_readpc(); bit = dp >> 13; dp &= 0x1fff; rd = op_read(dp); switch(opcode >> 5) { case 0: //orc addr:bit case 1: //orc !addr:bit op_io(); regs.p.c |= (rd & (1 << bit)) ^ (bool)(opcode & 0x20); break; case 2: //and addr:bit case 3: //and !addr:bit regs.p.c &= (rd & (1 << bit)) ^ (bool)(opcode & 0x20); break; case 4: //eor addr:bit op_io(); regs.p.c ^= (bool)(rd & (1 << bit)); break; case 5: //ldc addr:bit regs.p.c = (rd & (1 << bit)); break; case 6: //stc addr:bit op_io(); rd = (rd & ~(1 << bit)) | (regs.p.c << bit); op_write(dp, rd); break; case 7: //not addr:bit rd ^= 1 << bit; op_write(dp, rd); break; } } auto SPC700::op_set_bit() -> void { dp = op_readpc(); rd = op_readdp(dp) & ~(1 << (opcode >> 5)); op_writedp(dp, rd | (!(opcode & 0x10) << (opcode >> 5))); } auto SPC700::op_set_flag(bool& flag, bool data) -> void { op_io(); if(&flag == ®s.p.i) op_io(); flag = data; } auto SPC700::op_test_addr(bool set) -> void { dp.l = op_readpc(); dp.h = op_readpc(); rd = op_read(dp); regs.p.n = (regs.a - rd) & 0x80; regs.p.z = (regs.a - rd) == 0; op_read(dp); op_write(dp, set ? rd | regs.a : rd & ~regs.a); } auto SPC700::op_transfer(uint8_t& from, uint8_t& to) -> void { op_io(); to = from; if(&to == ®s.s) return; regs.p.n = (to & 0x80); regs.p.z = (to == 0); } auto SPC700::op_write_addr(uint8_t& r) -> void { dp.l = op_readpc(); dp.h = op_readpc(); op_read(dp); op_write(dp, r); } auto SPC700::op_write_addri(uint8_t& i) -> void { dp.l = op_readpc(); dp.h = op_readpc(); op_io(); dp += i; op_read(dp); op_write(dp, regs.a); } auto SPC700::op_write_dp(uint8_t& r) -> void { dp = op_readpc(); op_readdp(dp); op_writedp(dp, r); } auto SPC700::op_write_dpi(uint8_t& r, uint8_t& i) -> void { dp = op_readpc() + i; op_io(); op_readdp(dp); op_writedp(dp, r); } template uint8> auto SPC700::op_write_dp_const() -> void { rd = op_readpc(); dp = op_readpc(); wr = op_readdp(dp); wr = call(wr, rd); op != &SPC700::op_cmp ? op_writedp(dp, wr) : op_io(); } template uint8> auto SPC700::op_write_dp_dp() -> void { sp = op_readpc(); rd = op_readdp(sp); dp = op_readpc(); if(op != &SPC700::op_st) wr = op_readdp(dp); wr = call(wr, rd); op != &SPC700::op_cmp ? op_writedp(dp, wr) : op_io(); } template uint8> auto SPC700::op_write_ix_iy() -> void { op_io(); rd = op_readdp(regs.y); wr = op_readdp(regs.x); wr = call(wr, rd); op != &SPC700::op_cmp ? op_writedp(regs.x, wr) : op_io(); } // auto SPC700::op_bne_dp() -> void { dp = op_readpc(); sp = op_readdp(dp); rd = op_readpc(); op_io(); if(regs.a == sp) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_bne_dpdec() -> void { dp = op_readpc(); wr = op_readdp(dp); op_writedp(dp, --wr); rd = op_readpc(); if(wr == 0) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_bne_dpx() -> void { dp = op_readpc(); op_io(); sp = op_readdp(dp + regs.x); rd = op_readpc(); op_io(); if(regs.a == sp) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_bne_ydec() -> void { rd = op_readpc(); op_io(); op_io(); if(--regs.y == 0) return; op_io(); op_io(); regs.pc += (int8)rd; } auto SPC700::op_brk() -> void { rd.l = op_read(0xffde); rd.h = op_read(0xffdf); op_io(); op_io(); op_writesp(regs.pc.h); op_writesp(regs.pc.l); op_writesp(regs.p); regs.pc = rd; regs.p.b = 1; regs.p.i = 0; } auto SPC700::op_clv() -> void { op_io(); regs.p.v = 0; regs.p.h = 0; } auto SPC700::op_cmc() -> void { op_io(); op_io(); regs.p.c = !regs.p.c; } auto SPC700::op_daa() -> void { op_io(); op_io(); if(regs.p.c || (regs.a) > 0x99) { regs.a += 0x60; regs.p.c = 1; } if(regs.p.h || (regs.a & 15) > 0x09) { regs.a += 0x06; } regs.p.n = (regs.a & 0x80); regs.p.z = (regs.a == 0); } auto SPC700::op_das() -> void { op_io(); op_io(); if(!regs.p.c || (regs.a) > 0x99) { regs.a -= 0x60; regs.p.c = 0; } if(!regs.p.h || (regs.a & 15) > 0x09) { regs.a -= 0x06; } regs.p.n = (regs.a & 0x80); regs.p.z = (regs.a == 0); } auto SPC700::op_div_ya_x() -> void { op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); ya = regs.ya; //overflow set if quotient >= 256 regs.p.v = (regs.y >= regs.x); regs.p.h = ((regs.y & 15) >= (regs.x & 15)); if(regs.y < (regs.x << 1)) { //if quotient is <= 511 (will fit into 9-bit result) regs.a = ya / regs.x; regs.y = ya % regs.x; } else { //otherwise, the quotient won't fit into regs.p.v + regs.a //this emulates the odd behavior of the S-SMP in this case regs.a = 255 - (ya - (regs.x << 9)) / (256 - regs.x); regs.y = regs.x + (ya - (regs.x << 9)) % (256 - regs.x); } //result is set based on a (quotient) only regs.p.n = (regs.a & 0x80); regs.p.z = (regs.a == 0); } auto SPC700::op_jmp_addr() -> void { rd.l = op_readpc(); rd.h = op_readpc(); regs.pc = rd; } auto SPC700::op_jmp_iaddrx() -> void { dp.l = op_readpc(); dp.h = op_readpc(); op_io(); dp += regs.x; rd.l = op_read(dp++); rd.h = op_read(dp++); regs.pc = rd; } auto SPC700::op_jsp_dp() -> void { rd = op_readpc(); op_io(); op_io(); op_writesp(regs.pc.h); op_writesp(regs.pc.l); regs.pc = 0xff00 | rd; } auto SPC700::op_jsr_addr() -> void { rd.l = op_readpc(); rd.h = op_readpc(); op_io(); op_io(); op_io(); op_writesp(regs.pc.h); op_writesp(regs.pc.l); regs.pc = rd; } auto SPC700::op_jst() -> void { dp = 0xffde - ((opcode >> 4) << 1); rd.l = op_read(dp++); rd.h = op_read(dp++); op_io(); op_io(); op_io(); op_writesp(regs.pc.h); op_writesp(regs.pc.l); regs.pc = rd; } auto SPC700::op_lda_ixinc() -> void { op_io(); regs.a = op_readdp(regs.x++); op_io(); regs.p.n = regs.a & 0x80; regs.p.z = regs.a == 0; } auto SPC700::op_mul_ya() -> void { op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); op_io(); ya = regs.y * regs.a; regs.a = ya; regs.y = ya >> 8; //result is set based on y (high-byte) only regs.p.n = (regs.y & 0x80); regs.p.z = (regs.y == 0); } auto SPC700::op_nop() -> void { op_io(); } auto SPC700::op_plp() -> void { op_io(); op_io(); regs.p = op_readsp(); } auto SPC700::op_rti() -> void { regs.p = op_readsp(); rd.l = op_readsp(); rd.h = op_readsp(); op_io(); op_io(); regs.pc = rd; } auto SPC700::op_rts() -> void { rd.l = op_readsp(); rd.h = op_readsp(); op_io(); op_io(); regs.pc = rd; } auto SPC700::op_sta_idpx() -> void { sp = op_readpc() + regs.x; op_io(); dp.l = op_readdp(sp++); dp.h = op_readdp(sp++); op_read(dp); op_write(dp, regs.a); } auto SPC700::op_sta_idpy() -> void { sp = op_readpc(); dp.l = op_readdp(sp++); dp.h = op_readdp(sp++); op_io(); dp += regs.y; op_read(dp); op_write(dp, regs.a); } auto SPC700::op_sta_ix() -> void { op_io(); op_readdp(regs.x); op_writedp(regs.x, regs.a); } auto SPC700::op_sta_ixinc() -> void { op_io(); op_io(); op_writedp(regs.x++, regs.a); } auto SPC700::op_stw_dp() -> void { dp = op_readpc(); op_readdp(dp); op_writedp(dp++, regs.a); op_writedp(dp++, regs.y); } auto SPC700::op_wait() -> void { while(true) { op_io(); op_io(); } } auto SPC700::op_xcn() -> void { op_io(); op_io(); op_io(); op_io(); regs.a = (regs.a >> 4) | (regs.a << 4); regs.p.n = regs.a & 0x80; regs.p.z = regs.a == 0; } #undef call