// license:BSD-3-Clause // copyright-holders:Olivier Galibert, R. Belmont /*************************************************************************** mcs96.h MCS96 ***************************************************************************/ #ifndef MAME_CPU_MCS96_MCS96_H #define MAME_CPU_MCS96_MCS96_H #pragma once class mcs96_device : public cpu_device { public: enum { MCS96_PC = 1, MCS96_PSW, MCS96_INT_PENDING, MCS96_SP, MCS96_AX, MCS96_AL, MCS96_AH, MCS96_DX, MCS96_DL, MCS96_DH, MCS96_BX, MCS96_BL, MCS96_BH, MCS96_CX, MCS96_CL, MCS96_CH, MCS96_LAST_REG = MCS96_CH }; protected: enum { STATE_FETCH = 0x200, STATE_FETCH_NOIRQ = 0x201 }; enum { F_ST = 0x0100, F_I = 0x0200, F_C = 0x0800, F_VT = 0x1000, F_V = 0x2000, F_N = 0x4000, F_Z = 0x8000 }; mcs96_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock, int data_width, address_map_constructor regs_map); // device-level overrides virtual void device_start() override; virtual void device_reset() override; // device_execute_interface overrides virtual uint32_t execute_min_cycles() const noexcept override; virtual uint32_t execute_max_cycles() const noexcept override; virtual void execute_run() override; // device_memory_interface overrides virtual space_config_vector memory_space_config() const override; // device_state_interface overrides virtual void state_import(const device_state_entry &entry) override; virtual void state_export(const device_state_entry &entry) override; virtual void state_string_export(const device_state_entry &entry, std::string &str) const override; address_space_config program_config, regs_config; address_space *program, *regs; std::function m_pr8; required_shared_ptr register_file; int icount, bcount, inst_state, cycles_scaling; uint8_t pending_irq; uint16_t PC, PPC, PSW; uint16_t OP1; uint8_t OP2, OP3, OPI; uint32_t TMP; bool irq_requested; virtual void do_exec_full() = 0; virtual void do_exec_partial() = 0; virtual void internal_update(uint64_t current_time) = 0; void recompute_bcount(uint64_t event_time); inline void next(int cycles) { icount -= cycles_scaling*cycles; inst_state = STATE_FETCH; } inline void next_noirq(int cycles) { icount -= cycles_scaling*cycles; inst_state = STATE_FETCH_NOIRQ; } void check_irq(); inline uint8_t read_pc() { return m_pr8(PC++); } void int_mask_w(u8 data); u8 int_mask_r(); void int_pending_w(u8 data); u8 int_pending_r(); void reg_w8(uint8_t adr, uint8_t data); void reg_w16(uint8_t adr, uint16_t data); void any_w8(uint16_t adr, uint8_t data); void any_w16(uint16_t adr, uint16_t data); uint8_t reg_r8(uint8_t adr); uint16_t reg_r16(uint8_t adr); uint8_t any_r8(uint16_t adr); uint16_t any_r16(uint16_t adr); uint8_t do_addb(uint8_t v1, uint8_t v2); uint16_t do_add(uint16_t v1, uint16_t v2); uint8_t do_subb(uint8_t v1, uint8_t v2); uint16_t do_sub(uint16_t v1, uint16_t v2); uint8_t do_addcb(uint8_t v1, uint8_t v2); uint16_t do_addc(uint16_t v1, uint16_t v2); uint8_t do_subcb(uint8_t v1, uint8_t v2); uint16_t do_subc(uint16_t v1, uint16_t v2); void set_nz8(uint8_t v); void set_nz16(uint16_t v); #define O(o) void o ## _full(); void o ## _partial() O(add_direct_2w); O(add_direct_3w); O(add_immed_2w); O(add_immed_3w); O(add_indexed_2w); O(add_indexed_3w); O(add_indirect_2w); O(add_indirect_3w); O(addb_direct_2b); O(addb_direct_3b); O(addb_immed_2b); O(addb_immed_3b); O(addb_indexed_2b); O(addb_indexed_3b); O(addb_indirect_2b); O(addb_indirect_3b); O(addc_direct_2w); O(addc_immed_2w); O(addc_indexed_2w); O(addc_indirect_2w); O(addcb_direct_2b); O(addcb_immed_2b); O(addcb_indexed_2b); O(addcb_indirect_2b); O(and_direct_2w); O(and_direct_3w); O(and_immed_2w); O(and_immed_3w); O(and_indexed_2w); O(and_indexed_3w); O(and_indirect_2w); O(and_indirect_3w); O(andb_direct_2b); O(andb_direct_3b); O(andb_immed_2b); O(andb_immed_3b); O(andb_indexed_2b); O(andb_indexed_3b); O(andb_indirect_2b); O(andb_indirect_3b); O(br_indirect_1n); O(clr_direct_1w); O(clrb_direct_1b); O(clrc_none); O(clrvt_none); O(cmp_direct_2w); O(cmp_immed_2w); O(cmp_indexed_2w); O(cmp_indirect_2w); O(cmpb_direct_2b); O(cmpb_immed_2b); O(cmpb_indexed_2b); O(cmpb_indirect_2b); O(dec_direct_1w); O(decb_direct_1b); O(di_none); O(div_direct_2w); O(div_immed_2w); O(div_indexed_2w); O(div_indirect_2w); O(divb_direct_2e); O(divb_immed_2e); O(divb_indexed_2w); O(divb_indirect_2w); O(divu_direct_2w); O(divu_immed_2w); O(divu_indexed_2w); O(divu_indirect_2w); O(divub_direct_2e); O(divub_immed_2e); O(divub_indexed_2w); O(divub_indirect_2w); O(djnz_rrel8); O(djnzw_wrrel8); O(ei_none); O(ext_direct_1w); O(extb_direct_1b); O(idlpd_none); O(inc_direct_1w); O(incb_direct_1b); O(jbc_brrel8); O(jbs_brrel8); O(jc_rel8); O(je_rel8); O(jge_rel8); O(jgt_rel8); O(jh_rel8); O(jle_rel8); O(jlt_rel8); O(jnc_rel8); O(jne_rel8); O(jnh_rel8); O(jnst_rel8); O(jnv_rel8); O(jnvt_rel8); O(jst_rel8); O(jv_rel8); O(jvt_rel8); O(lcall_rel16); O(ld_direct_2w); O(ld_immed_2w); O(ld_indexed_2w); O(ld_indirect_2w); O(ldb_direct_2b); O(ldb_immed_2b); O(ldb_indexed_2b); O(ldb_indirect_2b); O(ldbse_direct_2e); O(ldbse_immed_2e); O(ldbse_indexed_2w); O(ldbse_indirect_2w); O(ldbze_direct_2e); O(ldbze_immed_2e); O(ldbze_indexed_2w); O(ldbze_indirect_2w); O(ljmp_rel16); O(mul_direct_2w); O(mul_direct_3w); O(mul_immed_2w); O(mul_immed_3w); O(mul_indexed_2w); O(mul_indexed_3w); O(mul_indirect_2w); O(mul_indirect_3w); O(mulb_direct_2b); O(mulb_direct_3e); O(mulb_immed_2b); O(mulb_immed_3e); O(mulb_indexed_2b); O(mulb_indexed_3e); O(mulb_indirect_2b); O(mulb_indirect_3e); O(mulu_direct_2w); O(mulu_direct_3w); O(mulu_immed_2w); O(mulu_immed_3w); O(mulu_indexed_2w); O(mulu_indexed_3w); O(mulu_indirect_2w); O(mulu_indirect_3w); O(mulub_direct_2b); O(mulub_direct_3e); O(mulub_immed_2b); O(mulub_immed_3e); O(mulub_indexed_2b); O(mulub_indexed_3e); O(mulub_indirect_2b); O(mulub_indirect_3e); O(neg_direct_1w); O(negb_direct_1b); O(nop_none); O(norml_direct_2e); O(not_direct_1w); O(notb_direct_1b); O(or_direct_2w); O(or_immed_2w); O(or_indexed_2w); O(or_indirect_2w); O(orb_direct_2b); O(orb_immed_2b); O(orb_indexed_2b); O(orb_indirect_2b); O(pop_direct_1w); O(pop_indexed_1w); O(pop_indirect_1w); O(popf_none); O(push_direct_1w); O(push_immed_1w); O(push_indexed_1w); O(push_indirect_1w); O(pushf_none); O(ret_none); O(rst_none); O(scall_rel11); O(setc_none); O(shl_immed_or_reg_2w); O(shlb_immed_or_reg_2b); O(shll_immed_or_reg_2w); O(shr_immed_or_reg_2w); O(shra_immed_or_reg_2w); O(shrab_immed_or_reg_2b); O(shral_immed_or_reg_2w); O(shrb_immed_or_reg_2b); O(shrl_immed_or_reg_2w); O(sjmp_rel11); O(skip_immed_1b); O(st_direct_2w); O(st_indexed_2w); O(st_indirect_2w); O(stb_direct_2b); O(stb_indexed_2b); O(stb_indirect_2b); O(sub_direct_2w); O(sub_direct_3w); O(sub_immed_2w); O(sub_immed_3w); O(sub_indexed_2w); O(sub_indexed_3w); O(sub_indirect_2w); O(sub_indirect_3w); O(subb_direct_2b); O(subb_direct_3b); O(subb_immed_2b); O(subb_immed_3b); O(subb_indexed_2b); O(subb_indexed_3b); O(subb_indirect_2b); O(subb_indirect_3b); O(subc_direct_2w); O(subc_immed_2w); O(subc_indexed_2w); O(subc_indirect_2w); O(subcb_direct_2b); O(subcb_immed_2b); O(subcb_indexed_2b); O(subcb_indirect_2b); O(trap_none); O(xch_direct_2w); O(xchb_direct_2b); O(xor_direct_2w); O(xor_immed_2w); O(xor_indexed_2w); O(xor_indirect_2w); O(xorb_direct_2b); O(xorb_immed_2b); O(xorb_indexed_2b); O(xorb_indirect_2b); O(fetch); O(fetch_noirq); #undef O }; #endif // MAME_CPU_MCS96_MCS96_H