// license:BSD-3-Clause // copyright-holders:smf, Olivier Galibert /*************************************************************************** Namco C77 Custom H8 used on Cyberlead cabinet I/O boards ***************************************************************************/ #ifndef MAME_CPU_H8_C77_H #define MAME_CPU_H8_C77_H #pragma once #include "h8.h" #include "h8_intc.h" //#include "h8_adc.h" #include "h8_port.h" #include "h8_timer8.h" #include "h8_sci.h" class namco_c77_device : public h8_device { public: namco_c77_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); auto read_port1() { return m_read_port [PORT_1].bind(); } auto write_port1() { return m_write_port[PORT_1].bind(); } auto read_port2() { return m_read_port [PORT_2].bind(); } auto write_port2() { return m_write_port[PORT_2].bind(); } auto read_port3() { return m_read_port [PORT_3].bind(); } auto write_port3() { return m_write_port[PORT_3].bind(); } auto read_port4() { return m_read_port [PORT_4].bind(); } auto write_port4() { return m_write_port[PORT_4].bind(); } auto read_port5() { return m_read_port [PORT_5].bind(); } auto write_port5() { return m_write_port[PORT_5].bind(); } auto read_port6() { return m_read_port [PORT_6].bind(); } auto write_port6() { return m_write_port[PORT_6].bind(); } auto read_port7() { return m_read_port [PORT_7].bind(); } auto read_port8() { return m_read_port [PORT_8].bind(); } auto write_port8() { return m_write_port[PORT_8].bind(); } auto read_port9() { return m_read_port [PORT_9].bind(); } auto write_port9() { return m_write_port[PORT_9].bind(); } uint8_t wscr_r(); void wscr_w(uint8_t data); uint8_t stcr_r(); void stcr_w(uint8_t data); uint8_t syscr_r(); void syscr_w(uint8_t data); uint8_t mdcr_r(); void mdcr_w(uint8_t data); protected: namco_c77_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock, uint32_t start); // device_t virtual void device_add_mconfig(machine_config &config) override ATTR_COLD; virtual void device_start() override ATTR_COLD; virtual void device_reset() override; // device_execute_interface virtual void execute_set_input(int inputnum, int state) override; // h8_device virtual void irq_setup() override; virtual void update_irq_filter() override; virtual void interrupt_taken() override; virtual void internal_update(uint64_t current_time) override; virtual void notify_standby(int state) override; void map(address_map &map) ATTR_COLD; required_device m_intc; required_device m_port1; required_device m_port2; required_device m_port3; required_device m_port4; required_device m_port5; required_device m_port6; required_device m_port7; required_device m_port8; required_device m_port9; required_device m_timer8_0; //required_device m_timer8_1; uint8_t m_syscr; uint32_t m_ram_start; }; DECLARE_DEVICE_TYPE(NAMCO_C77, namco_c77_device) #endif // MAME_CPU_H8_C77_H