LEGACY_FLOPPY_OPTIONS_END void rainbow_state::machine_reset() { if (COLD_BOOT == 1) { COLD_BOOT = 2; m_crtc->MHFU(-100); // reset MHFU counter } m_z80->set_input_line(INPUT_LINE_HALT, ASSERT_LINE); INT88 = false; INTZ80 = false; m_zflip = true; m_z80_halted = true; m_kbd_tx_ready = m_kbd_rx_ready = false; m_kbd8251->write_cts(1); m_KBD = 0; m_irq_high = 0; // RESET ALL LEDs output_set_value("led1", 1); output_set_value("led2", 1); output_set_value("led3", 1); output_set_value("led4", 1); output_set_value("led5", 1); output_set_value("led6", 1); output_set_value("led7", 1); // GREEN KEYBOARD LEDs (1 = on, 0 = off): output_set_value("led_wait", 0); // led8 output_set_value("led_compose", 0); // led9 output_set_value("led_lock", 0); // led10 output_set_value("led_hold", 0); // led11 MOTOR_DISABLE_counter = 2; // soon resets drv.LEDs m_unit = 0; m_irq_mask = 0; }
LEGACY_FLOPPY_OPTIONS_END void rainbow_state::machine_reset() { if (COLD_BOOT == 1) { COLD_BOOT = 2; m_crtc->MHFU(-100); // reset MHFU counter } m_z80->set_input_line(INPUT_LINE_HALT, ASSERT_LINE); INT88 = false; INTZ80 = false; m_zflip = true; m_z80_halted = true; m_kbd_tx_ready = m_kbd_rx_ready = false; m_kbd8251->input_callback(device_serial_interface::CTS); // raise clear to send m_KBD = 0; m_beep->set_frequency(2000); m_beep->set_state(0); // RESET ALL LEDs output_set_value("led1", 1); output_set_value("led2", 1); output_set_value("led3", 1); output_set_value("led4", 1); output_set_value("led5", 1); output_set_value("led6", 1); output_set_value("led7", 1); output_set_value("led8", 1); output_set_value("led9", 1); output_set_value("led10", 1); output_set_value("led11", 1); MOTOR_DISABLE_counter = 2; // soon resets drv.LEDs m_unit = 0; }
INPUT_PORTS_END void rainbow_state::machine_reset() { m_unit = INVALID_DRIVE; m_fdc->reset(); m_fdc->set_floppy(NULL); m_fdc->dden_w(0); //m_fdc->set_force_ready(false); /* configure RAM */ address_space &program = m_maincpu->space(AS_PROGRAM); if (m_inp8->read() < END_OF_RAM) { program.unmap_readwrite(m_inp8->read(), END_OF_RAM); } // BIOS can't handle soft resets (=> triggers ERROR 16). if ( COLD_BOOT == 2 ) { // As a fallback, execute a hard reboot - device().machine().schedule_hard_reset(); } if ( COLD_BOOT == 1 ) { COLD_BOOT = 2; m_crtc->MHFU(-100); // reset MHFU counter } m_z80->set_input_line(INPUT_LINE_HALT, ASSERT_LINE); INT88 = false; INTZ80 = false; m_zflip = true; m_z80_halted = true; m_kbd_tx_ready = m_kbd_rx_ready = false; m_kbd8251->write_cts(1); m_KBD = 0; m_irq_high = 0; // RESET ALL LEDs output_set_value("led1", 1); output_set_value("led2", 1); output_set_value("led3", 1); output_set_value("led4", 1); output_set_value("led5", 1); output_set_value("led6", 1); output_set_value("led7", 1); // GREEN KEYBOARD LEDs (1 = on, 0 = off): output_set_value("led_wait", 0); // led8 output_set_value("led_compose", 0); // led9 output_set_value("led_lock", 0); // led10 output_set_value("led_hold", 0); // led11 m_irq_mask = 0; }