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// license:BSD-3-Clause
// copyright-holders:Curt Coder
/**********************************************************************
MOS Technology 6530 Memory, I/O, Timer Array emulation
MOS Technology 6532 RAM, I/O, Timer Array emulation
**********************************************************************
_____ _____
Vss 1 |* \_/ | 40 PA1
PA0 2 | | 39 PA2
phi2 3 | | 38 PA3
RS0 4 | | 37 PA4
A9 5 | | 36 PA5
A8 6 | | 35 PA6
A7 7 | | 34 PA7
A6 8 | | 33 DB0
R/W 9 | | 32 DB1
A5 10 | MCS6530 | 31 DB2
A4 11 | | 30 DB3
A3 12 | | 29 DB4
A2 13 | | 28 DB5
A1 14 | | 27 DB6
A0 15 | | 26 DB7
_RES 16 | | 25 PB0
IRQ/PB7 17 | | 24 PB1
CS1/PB6 18 | | 23 PB2
CS2/PB5 19 | | 22 PB3
Vcc 20 |_____________| 21 PB4
_____ _____
Vss 1 |* \_/ | 40 A6
A5 2 | | 39 phi2
A4 3 | | 38 CS1
A3 4 | | 37 _CS2
A2 5 | | 36 _RS
A1 6 | | 35 R/W
A0 7 | | 34 _RES
PA0 8 | | 33 D0
PA1 9 | | 32 D1
PA2 10 | MCS6532 | 31 D2
PA3 11 | | 30 D3
PA4 12 | | 29 D4
PA5 13 | | 28 D5
PA6 14 | | 27 D6
PA7 15 | | 26 D7
PB7 16 | | 25 _IRQ
PB6 17 | | 24 PB0
PB5 18 | | 23 PB1
PB4 19 | | 22 PB2
Vcc 20 |_____________| 21 PB3
**********************************************************************/
#ifndef MAME_MACHINE_MOS6530N_H
#define MAME_MACHINE_MOS6530N_H
#pragma once
//**************************************************************************
// INTERFACE CONFIGURATION MACROS
//**************************************************************************
#define MCFG_MOS6530n_IRQ_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_irq_wr_callback(DEVCB_##_write);
#define MCFG_MOS6530n_IN_PA_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback(DEVCB_##_read);
#define MCFG_MOS6530n_OUT_PA_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback(DEVCB_##_write);
#define MCFG_MOS6530n_IN_PB_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback(DEVCB_##_read);
#define MCFG_MOS6530n_OUT_PB_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback(DEVCB_##_write);
#define MCFG_MOS6530n_IN_PA0_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<0>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA1_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<1>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA2_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<2>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA3_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<3>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA4_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<4>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA5_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<5>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA6_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<6>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PA7_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_rd_callback<7>(DEVCB_##_read);
#define MCFG_MOS6530n_OUT_PA0_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<0>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA1_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<1>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA2_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<2>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA3_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<3>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA4_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<4>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA5_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<5>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA6_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<6>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PA7_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pa_wr_callback<7>(DEVCB_##_write);
#define MCFG_MOS6530n_IN_PB0_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<0>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB1_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<1>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB2_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<2>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB3_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<3>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB4_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<4>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB5_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<5>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB6_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<6>(DEVCB_##_read);
#define MCFG_MOS6530n_IN_PB7_CB(_read) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_rd_callback<7>(DEVCB_##_read);
#define MCFG_MOS6530n_OUT_PB0_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<0>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB1_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<1>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB2_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<2>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB3_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<3>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB4_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<4>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB5_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<5>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB6_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<6>(DEVCB_##_write);
#define MCFG_MOS6530n_OUT_PB7_CB(_write) \
devcb = &downcast<mos6530_device_base &>(*device).set_pb_wr_callback<7>(DEVCB_##_write);
//**************************************************************************
// TYPE DEFINITIONS
//**************************************************************************
// ======================> mos6530_device_base
class mos6530_device_base : public device_t
{
public:
template <class Object> devcb_base &set_irq_wr_callback(Object &&cb) { return m_irq_cb.set_callback(std::forward<Object>(cb)); }
template <class Object> devcb_base &set_pa_rd_callback(Object &&cb) { return m_in8_pa_cb.set_callback(std::forward<Object>(cb)); }
template <class Object> devcb_base &set_pa_wr_callback(Object &&cb) { return m_out8_pa_cb.set_callback(std::forward<Object>(cb)); }
template <class Object> devcb_base &set_pb_rd_callback(Object &&cb) { return m_in8_pb_cb.set_callback(std::forward<Object>(cb)); }
template <class Object> devcb_base &set_pb_wr_callback(Object &&cb) { return m_out8_pb_cb.set_callback(std::forward<Object>(cb)); }
template <unsigned N, class Object> devcb_base &set_pa_rd_callback(Object &&cb) { return m_in_pa_cb[N].set_callback(std::forward<Object>(cb)); }
template <unsigned N, class Object> devcb_base &set_pa_wr_callback(Object &&cb) { return m_out_pa_cb[N].set_callback(std::forward<Object>(cb)); }
template <unsigned N, class Object> devcb_base &set_pb_rd_callback(Object &&cb) { return m_in_pb_cb[N].set_callback(std::forward<Object>(cb)); }
template <unsigned N, class Object> devcb_base &set_pb_wr_callback(Object &&cb) { return m_out_pb_cb[N].set_callback(std::forward<Object>(cb)); }
DECLARE_WRITE_LINE_MEMBER( pa0_w ) { pa_w(0, state); }
DECLARE_WRITE_LINE_MEMBER( pa1_w ) { pa_w(1, state); }
DECLARE_WRITE_LINE_MEMBER( pa2_w ) { pa_w(2, state); }
DECLARE_WRITE_LINE_MEMBER( pa3_w ) { pa_w(3, state); }
DECLARE_WRITE_LINE_MEMBER( pa4_w ) { pa_w(4, state); }
DECLARE_WRITE_LINE_MEMBER( pa5_w ) { pa_w(5, state); }
DECLARE_WRITE_LINE_MEMBER( pa6_w ) { pa_w(6, state); }
DECLARE_WRITE_LINE_MEMBER( pa7_w ) { pa_w(7, state); }
DECLARE_WRITE_LINE_MEMBER( pb0_w ) { pb_w(0, state); }
DECLARE_WRITE_LINE_MEMBER( pb1_w ) { pb_w(1, state); }
DECLARE_WRITE_LINE_MEMBER( pb2_w ) { pb_w(2, state); }
DECLARE_WRITE_LINE_MEMBER( pb3_w ) { pb_w(3, state); }
DECLARE_WRITE_LINE_MEMBER( pb4_w ) { pb_w(4, state); }
DECLARE_WRITE_LINE_MEMBER( pb5_w ) { pb_w(5, state); }
DECLARE_WRITE_LINE_MEMBER( pb6_w ) { pb_w(6, state); }
DECLARE_WRITE_LINE_MEMBER( pb7_w ) { pb_w(7, state); }
protected:
// construction/destruction
mos6530_device_base(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock);
// device-level overrides
virtual void device_start() override;
virtual void device_reset() override;
virtual void device_timer(emu_timer &timer, device_timer_id id, int param, void *ptr) override;
enum
{
IRQ_EDGE = 0x40,
IRQ_TIMER = 0x80
};
void update_pa();
virtual void update_pb();
virtual void update_irq();
virtual uint8_t get_irq_flags();
void edge_detect();
void pa_w(int bit, int state);
void pb_w(int bit, int state);
void timer_w(offs_t offset, uint8_t data, bool ie);
uint8_t timer_r(bool ie);
DECLARE_READ8_MEMBER( rom_r ) { return m_rom[offset]; }
DECLARE_READ8_MEMBER( ram_r ) { return m_ram[offset]; }
DECLARE_WRITE8_MEMBER( ram_w ) { m_ram[offset] = data; }
DECLARE_READ8_MEMBER( pa_data_r );
DECLARE_WRITE8_MEMBER( pa_data_w );
DECLARE_READ8_MEMBER( pb_data_r );
DECLARE_WRITE8_MEMBER( pb_data_w );
DECLARE_READ8_MEMBER( pa_ddr_r ) { return m_pa_ddr; }
DECLARE_WRITE8_MEMBER( pa_ddr_w );
DECLARE_READ8_MEMBER( pb_ddr_r ) { return m_pb_ddr; }
DECLARE_WRITE8_MEMBER( pb_ddr_w );
DECLARE_READ8_MEMBER( timer_off_r );
DECLARE_READ8_MEMBER( timer_on_r );
DECLARE_READ8_MEMBER( irq_r );
DECLARE_WRITE8_MEMBER( timer_off_w );
DECLARE_WRITE8_MEMBER( timer_on_w );
DECLARE_WRITE8_MEMBER( edge_w );
optional_shared_ptr<uint8_t> m_ram;
optional_region_ptr<uint8_t> m_rom;
devcb_write_line m_irq_cb;
devcb_read8 m_in8_pa_cb;
devcb_write8 m_out8_pa_cb;
devcb_read8 m_in8_pb_cb;
devcb_write8 m_out8_pb_cb;
devcb_read_line m_in_pa_cb[8];
devcb_write_line m_out_pa_cb[8];
devcb_read_line m_in_pb_cb[8];
devcb_write_line m_out_pb_cb[8];
uint8_t m_pa_in;
uint8_t m_pa_out;
uint8_t m_pa_ddr;
int m_pa7;
int m_pa7_dir;
uint8_t m_pb_in;
uint8_t m_pb_out;
uint8_t m_pb_ddr;
bool m_ie_timer;
bool m_irq_timer;
bool m_ie_edge;
bool m_irq_edge;
int m_prescale;
uint8_t m_timer;
enum {
IDLE,
RUNNING,
RUNNING_SYNCPOINT,
RUNNING_AFTER_INTERRUPT
};
struct live_info {
attotime tm, tm_irq;
attotime period;
int state, next_state;
uint8_t value;
};
live_info cur_live, checkpoint_live;
emu_timer *t_gen;
void live_start();
void checkpoint();
void rollback();
void live_delay(int state);
void live_sync();
void live_abort();
void live_run(const attotime &limit = attotime::never);
};
class mos6530_new_device : public mos6530_device_base
{
public:
// construction/destruction
mos6530_new_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock);
virtual void rom_map(address_map &map);
virtual void ram_map(address_map &map);
virtual void io_map(address_map &map);
protected:
// device-level overrides
virtual void device_start() override;
void update_pb() override;
void update_irq() override;
uint8_t get_irq_flags() override;
};
class mos6532_new_device : public mos6530_device_base
{
public:
// construction/destruction
mos6532_new_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock);
virtual void ram_map(address_map &map);
virtual void io_map(address_map &map);
// is there a better way to access the memory map when not using AM_DEVICE?
DECLARE_READ8_MEMBER(io_r);
DECLARE_WRITE8_MEMBER(io_w);
protected:
// device-level overrides
virtual void device_start() override;
};
// device type definition
DECLARE_DEVICE_TYPE(MOS6530_NEW, mos6530_new_device)
DECLARE_DEVICE_TYPE(MOS6532_NEW, mos6532_new_device)
#endif // MAME_MACHINE_MOS6530N_H
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