void K056800_init(void (* irq_callback)(int))
{
double timer_period;
K056800_sound_irq_callback = irq_callback;
memset(K056800_host_reg, 0, sizeof(K056800_host_reg));
memset(K056800_sound_reg, 0, sizeof(K056800_sound_reg));
timer_period = 1000.0/(44100.0/128.0); // roughly 2.9us
K056800_sound_cpu_timer = timer_alloc(K056800_sound_cpu_timer_tick);
timer_adjust(K056800_sound_cpu_timer, TIME_IN_MSEC(timer_period), 0, TIME_IN_MSEC(timer_period));
}
/***************************************************************************
ticket_dispenser_toggle
How I think this works:
When a ticket dispenses, there is N milliseconds of status = high,
and N milliseconds of status = low (a wait cycle?).
***************************************************************************/
static void ticket_dispenser_toggle(int which)
{
/* If we still have power, keep toggling ticket states. */
if (dispenser[which].power)
{
dispenser[which].status ^= active_bit;
#ifdef DEBUG_TICKET
logerror("Ticket Status Changed to %02X\n", status);
#endif
timer_adjust(dispenser[which].timer, TIME_IN_MSEC(time_msec), which, 0);
}
if (dispenser[which].status == ticketdispensed)
{
set_led_status(2,1);
dispensed_tickets++;
#ifdef DEBUG_TICKET
logerror("Ticket Dispensed\n");
#endif
}
else
{
set_led_status(2,0);
}
}
static void Hotdog_SendCmd(int cmda, int cmdb)
{
cmd_latch = 0;
cpu_set_irq_line(0, IRQ_LINE_NMI, ASSERT_LINE);
timer_set(TIME_IN_MSEC(30), cmda, hotdog_timer);
}
void m1snd_startQueue(void)
{
cmd_qmutex = 1;
timer_setturbo(8);
timer_set(TIME_IN_MSEC(m1snd_getCurBoard()->startupTime), 0, queue_startcb);
m1ui_message(m1ui_this, M1_MSG_BOOTING, NULL, 0);
boottime = 1;
}
static WRITE_HANDLER( sbrkout_dac_w )
{
sbrkout_sound[offset]=data;
if (init_timer)
{
timer_set (TIME_IN_MSEC(TIME_4V), 0, sbrkout_tones_4V);
init_timer=0;
}
}
static void sbrkout_tones_4V(int foo)
{
static int vlines=0;
if ((*sbrkout_sound) & vlines)
DAC_data_w(0,255);
else
DAC_data_w(0,0);
vlines = (vlines+1) % 16;
timer_set (TIME_IN_MSEC(TIME_4V), 0, sbrkout_tones_4V);
}
void m1snd_processQueue(void)
{
// if a timer is in progress, don't add more
if (cmd_qmutex)
{
return;
}
if (cmd_qptr != cmd_qtop)
{
cmd_qmutex = 1;
timer_set(TIME_IN_MSEC(m1snd_getCurBoard()->interCmdTime), cmd_queue[cmd_qptr], queue_timercb);
}
}
static void sslam_play(int track, int data)
{
int status = OKIM6295_status_0_r(0);
if (data < 0x80) {
if (track) {
if (sslam_track != data) {
sslam_track = data;
sslam_bar = 1;
if (status & 0x08)
OKIM6295_data_0_w(0,0x40);
OKIM6295_data_0_w(0,(0x80 | data));
OKIM6295_data_0_w(0,0x81);
timer_adjust(music_timer, TIME_IN_MSEC(4), 0, TIME_IN_HZ(250)); /* 250Hz for smooth sequencing */
}
}
else {
if ((status & 0x01) == 0) {
OKIM6295_data_0_w(0,(0x80 | data));
OKIM6295_data_0_w(0,0x11);
}
else if ((status & 0x02) == 0) {
OKIM6295_data_0_w(0,(0x80 | data));
OKIM6295_data_0_w(0,0x21);
}
else if ((status & 0x04) == 0) {
OKIM6295_data_0_w(0,(0x80 | data));
OKIM6295_data_0_w(0,0x41);
}
}
}
else { /* use above 0x80 to turn off channels */
if (track) {
timer_enable(music_timer,0);
sslam_track = 0;
sslam_melody = 0;
sslam_bar = 0;
}
data &= 0x7f;
OKIM6295_data_0_w(0,data);
}
}
/***************************************************************************
ticket_dispenser_toggle
How I think this works:
When a ticket dispenses, there is N milliseconds of status = high,
and N milliseconds of status = low (a wait cycle?).
***************************************************************************/
static void ticket_dispenser_toggle(int parm)
{
/* If we still have power, keep toggling ticket states. */
if (power)
{
status ^= active_bit;
timer = timer_set (TIME_IN_MSEC(time_msec), 0, ticket_dispenser_toggle);
}
if (status == ticketdispensed)
{
osd_led_w(2,1);
dispensed_tickets++;
}
else
{
osd_led_w(2,0);
}
}
/***************************************************************************
ticket_dispenser_w
***************************************************************************/
void ticket_dispenser_w(int offset, int data)
{
/* On an activate signal, start dispensing! */
if ((data & active_bit) == motoron)
{
if (!power)
{
timer = timer_set (TIME_IN_MSEC(time_msec), 0, ticket_dispenser_toggle);
power = 1;
status = ticketnotdispensed;
}
}
else
{
if (power)
{
timer_remove(timer);
osd_led_w(2,0);
power = 0;
}
}
}
static MACHINE_RESET( adam )
{
if (image_exists(image_from_devtype_and_index(IO_CARTSLOT, 0)))
{
/* ColecoVision Mode Reset (Cartridge Mounted) */
adam_lower_memory = 3; /* OS7 + 24k RAM */
adam_upper_memory = 3; /* Cartridge ROM */
}
else
{
/* Adam Mode Reset */
adam_lower_memory = 0; /* SmartWriter ROM/EOS */
adam_upper_memory = 0; /* Internal RAM */
}
adam_net_data = 0;
set_memory_banks();
adam_pcb=0xFEC0;
clear_keyboard_buffer();
memset(&memory_region(REGION_CPU1)[0x0000], 0xFF, 0x20000); /* Initializing RAM */
timer_pulse(TIME_IN_MSEC(20), 0, adam_paddle_callback);
}
static MACHINE_RESET(coleco)
{
cpunum_set_input_line_vector(0, 0, 0xff);
memset(&memory_region(REGION_CPU1)[0x6000], 0xff, 0x400); // initialize RAM
timer_pulse(TIME_IN_MSEC(20), 0, paddle_callback);
}
static MACHINE_INIT( sbrkout )
{
timer_pulse(TIME_IN_MSEC(TIME_4V), 0, sbrkout_tones_4V);
}
