void deco32_state::video_start()
{
save_item(NAME(m_pri));
}
void welltris_state::machine_start()
{
membank("soundbank")->configure_entries(0, 4, memregion("audiocpu")->base(), 0x8000);
save_item(NAME(m_pending_command));
}
void poly880_state::machine_start()
{
/* register for state saving */
save_item(NAME(m_digit));
save_item(NAME(m_segment));
}
void tms32082_mp_device::device_start()
{
m_program = &space(AS_PROGRAM);
save_item(NAME(m_pc));
save_item(NAME(m_fetchpc));
save_item(NAME(m_reg));
save_item(NAME(m_acc));
save_item(NAME(m_in0p));
save_item(NAME(m_in1p));
save_item(NAME(m_outp));
save_item(NAME(m_ie));
save_item(NAME(m_intpen));
// Register state for debugger
state_add(MP_PC, "pc", m_pc).formatstr("%08X");
state_add(MP_R0, "r0", m_reg[0]).formatstr("%08X");
state_add(MP_R1, "r1", m_reg[1]).formatstr("%08X");
state_add(MP_R2, "r2", m_reg[2]).formatstr("%08X");
state_add(MP_R3, "r3", m_reg[3]).formatstr("%08X");
state_add(MP_R4, "r4", m_reg[4]).formatstr("%08X");
state_add(MP_R5, "r5", m_reg[5]).formatstr("%08X");
state_add(MP_R6, "r6", m_reg[6]).formatstr("%08X");
state_add(MP_R7, "r7", m_reg[7]).formatstr("%08X");
state_add(MP_R8, "r8", m_reg[8]).formatstr("%08X");
state_add(MP_R9, "r9", m_reg[9]).formatstr("%08X");
state_add(MP_R10, "r10", m_reg[10]).formatstr("%08X");
state_add(MP_R11, "r11", m_reg[11]).formatstr("%08X");
state_add(MP_R12, "r12", m_reg[12]).formatstr("%08X");
state_add(MP_R13, "r13", m_reg[13]).formatstr("%08X");
state_add(MP_R14, "r14", m_reg[14]).formatstr("%08X");
state_add(MP_R15, "r15", m_reg[15]).formatstr("%08X");
state_add(MP_R16, "r16", m_reg[16]).formatstr("%08X");
state_add(MP_R17, "r17", m_reg[17]).formatstr("%08X");
state_add(MP_R18, "r18", m_reg[18]).formatstr("%08X");
state_add(MP_R19, "r19", m_reg[19]).formatstr("%08X");
state_add(MP_R20, "r20", m_reg[20]).formatstr("%08X");
state_add(MP_R21, "r21", m_reg[21]).formatstr("%08X");
state_add(MP_R22, "r22", m_reg[22]).formatstr("%08X");
state_add(MP_R23, "r23", m_reg[23]).formatstr("%08X");
state_add(MP_R24, "r24", m_reg[24]).formatstr("%08X");
state_add(MP_R25, "r25", m_reg[25]).formatstr("%08X");
state_add(MP_R26, "r26", m_reg[26]).formatstr("%08X");
state_add(MP_R27, "r27", m_reg[27]).formatstr("%08X");
state_add(MP_R28, "r28", m_reg[28]).formatstr("%08X");
state_add(MP_R29, "r29", m_reg[29]).formatstr("%08X");
state_add(MP_R30, "r30", m_reg[30]).formatstr("%08X");
state_add(MP_R31, "r31", m_reg[31]).formatstr("%08X");
state_add(MP_ACC0, "acc0", m_acc[0]).formatstr("%016X");
state_add(MP_ACC1, "acc1", m_acc[1]).formatstr("%016X");
state_add(MP_ACC2, "acc2", m_acc[2]).formatstr("%016X");
state_add(MP_ACC3, "acc3", m_acc[3]).formatstr("%016X");
state_add(MP_IN0P, "in0p", m_in0p).formatstr("%08X");
state_add(MP_IN1P, "in1p", m_in1p).formatstr("%08X");
state_add(MP_OUTP, "outp", m_outp).formatstr("%08X");
state_add(MP_IE, "ie", m_ie).formatstr("%08X");
state_add(MP_INTPEN, "intpen", m_intpen).formatstr("%08X");
state_add(MP_TCOUNT, "tcount", m_tcount).formatstr("%08X");
state_add(MP_TSCALE, "tscale", m_tscale).formatstr("%08X");
state_add(STATE_GENPC, "curpc", m_pc).noshow();
m_program = &space(AS_PROGRAM);
m_direct = &m_program->direct();
m_icountptr = &m_icount;
}
void timelimt_state::machine_start()
{
save_item(NAME(m_nmi_enabled));
}
void trs80m2_state::machine_start()
{
// floppy callbacks
m_fdc->setup_intrq_cb(wd_fdc_t::line_cb(FUNC(trs80m2_state::fdc_intrq_w), this));
m_fdc->setup_drq_cb(wd_fdc_t::line_cb(FUNC(trs80m2_state::fdc_drq_w), this));
// register for state saving
save_item(NAME(m_boot_rom));
save_item(NAME(m_bank));
save_item(NAME(m_msel));
save_item(NAME(m_key_latch));
save_item(NAME(m_key_data));
save_item(NAME(m_key_bit));
save_item(NAME(m_kbclk));
save_item(NAME(m_kbdata));
save_item(NAME(m_kbirq));
save_item(NAME(m_blnkvid));
save_item(NAME(m_80_40_char_en));
save_item(NAME(m_de));
save_item(NAME(m_rtc_int));
save_item(NAME(m_enable_rtc_int));
}
void acia6850_device::device_start()
{
// resolve callbacks
m_out_tx_func.resolve(m_out_tx_cb, *this);
m_out_rts_func.resolve(m_out_rts_cb, *this);
m_out_irq_func.resolve(m_out_irq_cb, *this);
m_tx_counter = 0;
m_rx_counter = 0;
m_rx_timer = timer_alloc(TIMER_ID_RECEIVE);
m_tx_timer = timer_alloc(TIMER_ID_TRANSMIT);
m_first_reset = 1;
m_status_read = 0;
m_brk = 0;
m_rx_timer->reset();
m_tx_timer->reset();
save_item(NAME(m_ctrl));
save_item(NAME(m_status));
save_item(NAME(m_rx_clock));
save_item(NAME(m_tx_clock));
save_item(NAME(m_rx_counter));
save_item(NAME(m_tx_counter));
save_item(NAME(m_rx_shift));
save_item(NAME(m_tx_shift));
save_item(NAME(m_rdr));
save_item(NAME(m_tdr));
save_item(NAME(m_rx_bits));
save_item(NAME(m_tx_bits));
save_item(NAME(m_rx_parity));
save_item(NAME(m_tx_parity));
save_item(NAME(m_tx_int));
save_item(NAME(m_divide));
save_item(NAME(m_overrun));
save_item(NAME(m_reset));
save_item(NAME(m_first_reset));
save_item(NAME(m_rts));
save_item(NAME(m_brk));
save_item(NAME(m_rxd));
save_item(NAME(m_dcd));
save_item(NAME(m_cts));
save_item(NAME(m_status_read));
save_item(NAME(m_dcd_triggered));
}
void chanbara_state::machine_start()
{
save_item(NAME(m_scroll));
save_item(NAME(m_scrollhi));
}
void neogeo_vliner_cart::device_start()
{
save_item(NAME(m_cart_ram));
}
void dsp16_device::device_start()
{
// register state with the debugger
state_add(STATE_GENPC, "GENPC", m_pc).noshow();
state_add(STATE_GENPCBASE, "CURPC", m_ppc).noshow();
state_add(STATE_GENFLAGS, "GENFLAGS", m_psw).callimport().callexport().formatstr("%10s").noshow();
state_add(DSP16_PC, "PC", m_pc);
state_add(DSP16_I, "I", m_i);
state_add(DSP16_PT, "PT", m_pt);
state_add(DSP16_PR, "PR", m_pr);
state_add(DSP16_PI, "PI", m_pi);
state_add(DSP16_J, "J", m_j);
state_add(DSP16_K, "K", m_k);
state_add(DSP16_RB, "RB", m_rb);
state_add(DSP16_RE, "RE", m_re);
state_add(DSP16_R0, "R0", m_r0);
state_add(DSP16_R1, "R1", m_r1);
state_add(DSP16_R2, "R2", m_r2);
state_add(DSP16_R3, "R3", m_r3);
state_add(DSP16_X, "X", m_x);
state_add(DSP16_Y, "Y", m_y);
state_add(DSP16_P, "P", m_p);
state_add(DSP16_A0, "A0", m_a0).mask(0xfffffffffU);
state_add(DSP16_A1, "A1", m_a1).mask(0xfffffffffU);
state_add(DSP16_AUC, "AUC", m_auc).formatstr("%8s");
state_add(DSP16_PSW, "PSW", m_psw).formatstr("%16s");
state_add(DSP16_C0, "C0", m_c0);
state_add(DSP16_C1, "C1", m_c1);
state_add(DSP16_C2, "C2", m_c2);
state_add(DSP16_SIOC, "SIOC", m_sioc).formatstr("%10s");
state_add(DSP16_SRTA, "SRTA", m_srta);
state_add(DSP16_SDX, "SDX", m_sdx);
state_add(DSP16_PIOC, "PIOC", m_pioc).formatstr("%16s");
state_add(DSP16_PDX0, "PDX0", m_pdx0);
state_add(DSP16_PDX1, "PDX1", m_pdx1);
// register our state for saving
save_item(NAME(m_i));
save_item(NAME(m_pc));
save_item(NAME(m_pt));
save_item(NAME(m_pr));
save_item(NAME(m_pi));
save_item(NAME(m_j));
save_item(NAME(m_k));
save_item(NAME(m_rb));
save_item(NAME(m_re));
save_item(NAME(m_r0));
save_item(NAME(m_r1));
save_item(NAME(m_r2));
save_item(NAME(m_r3));
save_item(NAME(m_x));
save_item(NAME(m_y));
save_item(NAME(m_p));
save_item(NAME(m_a0));
save_item(NAME(m_a1));
save_item(NAME(m_auc));
save_item(NAME(m_psw));
save_item(NAME(m_c0));
save_item(NAME(m_c1));
save_item(NAME(m_c2));
save_item(NAME(m_sioc));
save_item(NAME(m_srta));
save_item(NAME(m_sdx));
save_item(NAME(m_pioc));
save_item(NAME(m_pdx0));
save_item(NAME(m_pdx1));
save_item(NAME(m_ppc));
save_item(NAME(m_cacheStart));
save_item(NAME(m_cacheEnd));
save_item(NAME(m_cacheRedoNextPC));
save_item(NAME(m_cacheIterations));
// get our address spaces
m_program = &space(AS_PROGRAM);
m_data = &space(AS_DATA);
m_direct = &m_program->direct();
// set our instruction counter
m_icountptr = &m_icount;
}
void upd1990a_device::device_start()
{
(void)m_variant;
// resolve callbacks
m_write_data.resolve_safe();
m_write_tp.resolve_safe();
for (auto & elem : m_shift_reg)
elem = 0;
m_oe = 0;
m_cs = 0;
m_stb = 0;
m_data_in = 0;
m_data_out = 0;
m_c = 0;
m_clk = 0;
m_tp = 0;
m_c_unlatched = 0;
m_testmode = false;
// allocate timers
m_timer_clock = timer_alloc(TIMER_CLOCK);
m_timer_clock->adjust(attotime::from_hz(clock() / 32768.0), 0, attotime::from_hz(clock() / 32768.0)); // 1 second on XTAL_32_768kHz
m_timer_tp = timer_alloc(TIMER_TP);
m_timer_data_out = timer_alloc(TIMER_DATA_OUT);
m_timer_test_mode = timer_alloc(TIMER_TEST_MODE);
// state saving
save_item(NAME(m_time_counter));
save_item(NAME(m_shift_reg));
save_item(NAME(m_oe));
save_item(NAME(m_cs));
save_item(NAME(m_stb));
save_item(NAME(m_data_in));
save_item(NAME(m_data_out));
save_item(NAME(m_c));
save_item(NAME(m_clk));
save_item(NAME(m_tp));
save_item(NAME(m_c_unlatched));
save_item(NAME(m_testmode));
}
void gotya_state::machine_start()
{
save_item(NAME(m_scroll_bit_8));
save_item(NAME(m_theme_playing));
}
//-------------------------------------------------
// device_start - device-specific startup
//-------------------------------------------------
void pit68230_device::device_start ()
{
LOGSETUP("%s\n", FUNCNAME);
// NOTE:
// Not using resolve_safe for the m_px_in_cb's is a temporary way to be able to check
// if a handler is installed with isnull(). The safe function installs a dummy default
// handler which disable the isnull() test. TODO: Need a better fix?
// resolve callbacks Port A
m_pa_out_cb.resolve_safe();
m_pa_in_cb.resolve();
// resolve callbacks Port B
m_pb_out_cb.resolve_safe();
m_pb_in_cb.resolve();
// resolve callbacks Port C
m_pc_out_cb.resolve_safe();
m_pc_in_cb.resolve();
m_h1_out_cb.resolve_safe();
m_h2_out_cb.resolve_safe();
m_h3_out_cb.resolve_safe();
m_h4_out_cb.resolve_safe();
m_tirq_out_cb.resolve_safe();
m_pirq_out_cb.resolve_safe();
// Timers
pit_timer = timer_alloc(TIMER_ID_PIT);
// state saving
save_item(NAME(m_pgcr));
save_item(NAME(m_psrr));
save_item(NAME(m_paddr));
save_item(NAME(m_pbddr));
save_item(NAME(m_pcddr));
save_item(NAME(m_pivr));
save_item(NAME(m_pacr));
save_item(NAME(m_pbcr));
save_item(NAME(m_padr));
save_item(NAME(m_pbdr));
save_item(NAME(m_pcdr));
save_item(NAME(m_psr));
save_item(NAME(m_tcr));
save_item(NAME(m_tivr));
save_item(NAME(m_cpr));
save_item(NAME(m_cntr));
save_item(NAME(m_tsr));
}
void twincobr_state::video_start()
{
m_spritegen->alloc_sprite_bitmap(*m_screen);
/* the video RAM is accessed via ports, it's not memory mapped */
m_txvideoram_size = 0x0800;
m_bgvideoram_size = 0x2000; /* banked two times 0x1000 */
m_fgvideoram_size = 0x1000;
twincobr_create_tilemaps();
m_txvideoram16 = make_unique_clear<uint16_t[]>(m_txvideoram_size);
m_fgvideoram16 = make_unique_clear<uint16_t[]>(m_fgvideoram_size);
m_bgvideoram16 = make_unique_clear<uint16_t[]>(m_bgvideoram_size);
m_display_on = 0;
save_pointer(NAME(m_txvideoram16), m_txvideoram_size);
save_pointer(NAME(m_fgvideoram16), m_fgvideoram_size);
save_pointer(NAME(m_bgvideoram16), m_bgvideoram_size);
save_item(NAME(m_txoffs));
save_item(NAME(m_fgoffs));
save_item(NAME(m_bgoffs));
save_item(NAME(m_txscrollx));
save_item(NAME(m_fgscrollx));
save_item(NAME(m_bgscrollx));
save_item(NAME(m_txscrolly));
save_item(NAME(m_fgscrolly));
save_item(NAME(m_bgscrolly));
save_item(NAME(m_display_on));
save_item(NAME(m_fg_rom_bank));
save_item(NAME(m_bg_ram_bank));
}
void s7_state::machine_start()
{
m_memprotect = 0;
save_item(NAME(m_nvram));
machine().device<nvram_device>("nvram")->set_base(m_nvram, sizeof(m_nvram));
}
void ay31015_device::device_start()
{
m_read_si_cb.resolve();
m_write_so_cb.resolve();
m_status_changed_cb.resolve();
m_rx_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(ay31015_device::rx_process),this));
m_tx_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(ay31015_device::tx_process),this));
update_rx_timer();
update_tx_timer();
save_item(NAME(m_pins));
save_item(NAME(m_control_reg));
save_item(NAME(m_status_reg));
save_item(NAME(m_second_stop_bit));
save_item(NAME(m_total_pulses));
save_item(NAME(m_internal_sample));
save_item(NAME(m_rx_state));
save_item(NAME(m_rx_data));
save_item(NAME(m_rx_buffer));
save_item(NAME(m_rx_bit_count));
save_item(NAME(m_rx_parity));
save_item(NAME(m_rx_pulses));
save_item(NAME(m_rx_clock));
save_item(NAME(m_tx_state));
save_item(NAME(m_tx_data));
save_item(NAME(m_tx_buffer));
save_item(NAME(m_tx_parity));
save_item(NAME(m_tx_pulses));
save_item(NAME(m_tx_clock));
}
void nes_jf17_device::device_start()
{
common_start();
save_item(NAME(m_latch));
}
void ef9345_device::device_start()
{
m_busy_timer = timer_alloc(BUSY_TIMER);
m_blink_timer = timer_alloc(BLINKING_TIMER);
m_videoram = &space(0);
m_charset = region();
m_screen_out.allocate(496, m_screen->height());
m_screen_out.set_palette(machine().palette);
m_blink_timer->adjust(attotime::from_msec(500), 0, attotime::from_msec(500));
init_accented_chars();
save_item(NAME(m_border));
save_item(NAME(m_registers));
save_item(NAME(m_last_dial));
save_item(NAME(m_ram_base));
save_item(NAME(m_bf));
save_item(NAME(m_char_mode));
save_item(NAME(m_state));
save_item(NAME(m_tgs));
save_item(NAME(m_mat));
save_item(NAME(m_pat));
save_item(NAME(m_dor));
save_item(NAME(m_ror));
save_item(NAME(m_block));
save_item(NAME(m_blink));
save_item(NAME(m_latchc0));
save_item(NAME(m_latchm));
save_item(NAME(m_latchi));
save_item(NAME(m_latchu));
save_item(NAME(m_screen_out));
}
DRIVER_INIT_MEMBER(sslam_state,powerbls)
{
save_item(NAME(m_oki_control));
save_item(NAME(m_oki_command));
save_item(NAME(m_oki_bank));
}
void c64_stardos_cartridge_device::device_start()
{
// state saving
save_item(NAME(m_io1_charge));
save_item(NAME(m_io2_charge));
}
void dsp32c_device::device_start()
{
// get our address spaces
m_program = &space(AS_PROGRAM);
m_direct = &m_program->direct();
// register our state for the debugger
astring tempstr;
state_add(STATE_GENPC, "GENPC", m_r[15]).noshow();
state_add(STATE_GENPCBASE, "GENPCBASE", m_ppc).noshow();
state_add(STATE_GENSP, "GENSP", m_r[21]).noshow();
state_add(STATE_GENFLAGS, "GENFLAGS", m_iotemp).callimport().callexport().formatstr("%6s").noshow();
state_add(DSP32_PC, "PC", m_r[15]).mask(0xffffff);
for (int regnum = 0; regnum <= 14; regnum++)
state_add(DSP32_R0 + regnum, tempstr.format("R%d", regnum), m_r[regnum]).mask(0xffffff);
state_add(DSP32_R15, "R15", m_r[17]).mask(0xffffff);
state_add(DSP32_R16, "R16", m_r[18]).mask(0xffffff);
state_add(DSP32_R17, "R17", m_r[19]).mask(0xffffff);
state_add(DSP32_R18, "R18", m_r[20]).mask(0xffffff);
state_add(DSP32_R19, "R19", m_r[21]).mask(0xffffff);
state_add(DSP32_R20, "R20", m_r[24]).mask(0xffffff);
state_add(DSP32_R21, "R21", m_r[25]).mask(0xffffff);
state_add(DSP32_R22, "R22", m_r[29]).mask(0xffffff);
state_add(DSP32_PIN, "PIN", m_pin).mask(0xffffff);
state_add(DSP32_POUT, "POUT", m_pout).mask(0xffffff);
state_add(DSP32_IVTP, "IVTP", m_ivtp).mask(0xffffff);
state_add(DSP32_A0, "A0", m_a[0]).formatstr("%8s");
state_add(DSP32_A1, "A1", m_a[1]).formatstr("%8s");
state_add(DSP32_A2, "A2", m_a[2]).formatstr("%8s");
state_add(DSP32_A3, "A3", m_a[3]).formatstr("%8s");
state_add(DSP32_DAUC, "DAUC", m_r[26]).mask(0xff);
state_add(DSP32_PAR, "PAR", m_par);
state_add(DSP32_PDR, "PDR", m_pdr);
state_add(DSP32_PIR, "PIR", m_pir);
state_add(DSP32_PCR, "PCR", m_iotemp).mask(0x3ff).callimport();
state_add(DSP32_EMR, "EMR", m_emr);
state_add(DSP32_ESR, "ESR", m_esr);
state_add(DSP32_PCW, "PCW", m_pcw);
state_add(DSP32_PIOP, "PIOP", m_piop);
state_add(DSP32_IBUF, "IBUF", m_ibuf);
state_add(DSP32_ISR, "ISR", m_isr);
state_add(DSP32_OBUF, "OBUF", m_obuf);
state_add(DSP32_OSR, "OSR" , m_osr);
state_add(DSP32_IOC, "IOC", m_r[27]).mask(0xfffff);
// register our state for saving
save_item(NAME(m_r));
save_item(NAME(m_pin));
save_item(NAME(m_pout));
save_item(NAME(m_ivtp));
save_item(NAME(m_nzcflags));
save_item(NAME(m_vflags));
save_item(NAME(m_a));
save_item(NAME(m_NZflags));
save_item(NAME(m_VUflags));
save_item(NAME(m_abuf));
save_item(NAME(m_abufreg));
save_item(NAME(m_abufVUflags));
save_item(NAME(m_abufNZflags));
save_item(NAME(m_abufcycle));
save_item(NAME(m_abuf_index));
save_item(NAME(m_mbufaddr));
save_item(NAME(m_mbufdata));
save_item(NAME(m_par));
save_item(NAME(m_pare));
save_item(NAME(m_pdr));
save_item(NAME(m_pdr2));
save_item(NAME(m_pir));
save_item(NAME(m_pcr));
save_item(NAME(m_emr));
save_item(NAME(m_esr));
save_item(NAME(m_pcw));
save_item(NAME(m_piop));
save_item(NAME(m_ibuf));
save_item(NAME(m_isr));
save_item(NAME(m_obuf));
save_item(NAME(m_osr));
save_item(NAME(m_lastpins));
save_item(NAME(m_ppc));
}
void c64_dela_ep7x8_cartridge_device::device_start()
{
// state saving
save_item(NAME(m_bank));
}
void bullet_state::machine_start()
{
// floppy callbacks
m_fdc->setup_intrq_cb(wd_fdc_t::line_cb(FUNC(bullet_state::fdc_intrq_w), this));
m_fdc->setup_drq_cb(wd_fdc_t::line_cb(FUNC(bullet_state::fdc_drq_w), this));
// state saving
save_item(NAME(m_segst));
save_item(NAME(m_brom));
save_item(NAME(m_exdma));
save_item(NAME(m_buf));
save_item(NAME(m_fdrdy));
save_item(NAME(m_dartardy));
save_item(NAME(m_dartbrdy));
save_item(NAME(m_winrdy));
save_item(NAME(m_exrdy1));
save_item(NAME(m_exrdy2));
save_item(NAME(m_centronics_busy));
save_item(NAME(m_centronics_perror));
save_item(NAME(m_centronics_select));
save_item(NAME(m_centronics_fault));
}
void mm58274c_device::device_start()
{
m_increment_rtc = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(mm58274c_device::rtc_increment_cb),this));
m_increment_rtc->adjust(attotime::zero, 0, attotime::from_msec(100));
m_interrupt_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(mm58274c_device::rtc_interrupt_cb),this));
// register for state saving
save_item(NAME(m_status));
save_item(NAME(m_control));
save_item(NAME(m_clk_set));
save_item(NAME(m_int_ctl));
save_item(NAME(m_wday));
save_item(NAME(m_years1));
save_item(NAME(m_years2));
save_item(NAME(m_months1));
save_item(NAME(m_months2));
save_item(NAME(m_days1));
save_item(NAME(m_days2));
save_item(NAME(m_hours1));
save_item(NAME(m_hours2));
save_item(NAME(m_minutes1));
save_item(NAME(m_minutes2));
save_item(NAME(m_seconds1));
save_item(NAME(m_seconds2));
save_item(NAME(m_tenths));
}
void ssozumo_state::machine_start()
{
save_item(NAME(m_sound_nmi_mask));
}
void sv801_device::device_start()
{
// register for savestates
save_item(NAME(m_irq));
save_item(NAME(m_drq));
}
MACHINE_START_MEMBER(psychic5_state, bombsa)
{
membank("mainbank")->configure_entries(0, 8, memregion("maincpu")->base() + 0x10000, 0x4000);
save_item(NAME(m_bank_latch));
}
void timeplt_audio_device::device_start()
{
m_last_irq_state = 0;
save_item(NAME(m_last_irq_state));
}
void im6402_device::device_start()
{
// resolve callbacks
m_write_tro.resolve_safe();
m_write_dr.resolve_safe();
m_write_tbre.resolve_safe();
m_write_tre.resolve_safe();
// create the timers
if (m_rrc > 0)
{
set_rcv_rate(m_rrc/16);
}
if (m_trc > 0)
{
set_tra_rate(m_trc/16);
}
// state saving
save_item(NAME(m_dr));
save_item(NAME(m_tbre));
save_item(NAME(m_tre));
save_item(NAME(m_pe));
save_item(NAME(m_fe));
save_item(NAME(m_oe));
save_item(NAME(m_cls1));
save_item(NAME(m_cls2));
save_item(NAME(m_sbs));
save_item(NAME(m_sfd));
save_item(NAME(m_epe));
save_item(NAME(m_pi));
save_item(NAME(m_rbr));
save_item(NAME(m_rrc_count));
save_item(NAME(m_tbr));
save_item(NAME(m_trc_count));
}
void bullet_state::machine_start()
{
// state saving
save_item(NAME(m_segst));
save_item(NAME(m_brom));
save_item(NAME(m_exdma));
save_item(NAME(m_buf));
save_item(NAME(m_fdrdy));
save_item(NAME(m_dartardy));
save_item(NAME(m_dartbrdy));
save_item(NAME(m_winrdy));
save_item(NAME(m_exrdy1));
save_item(NAME(m_exrdy2));
save_item(NAME(m_centronics_busy));
save_item(NAME(m_centronics_perror));
save_item(NAME(m_centronics_select));
save_item(NAME(m_centronics_fault));
}
