static int32_t jerry_timer_1_counter;
static int32_t jerry_timer_2_counter;
-uint32_t JERRYI2SInterruptDivide = 8;
+//uint32_t JERRYI2SInterruptDivide = 8;
int32_t JERRYI2SInterruptTimer = -1;
uint32_t jerryI2SCycles;
uint32_t jerryIntPending;
{
//WriteLog("i2s: reseting\n");
//This is really SCLK... !!! FIX !!!
- JERRYI2SInterruptDivide = 8;
+ sclk = 8;
JERRYI2SInterruptTimer = -1;
}
void JERRYI2SCallback(void)
{
- // Why is it called this? Instead of SCLK? Shouldn't this be read from DAC.CPP???
-//Yes, it should. !!! FIX !!!
-#warning "Why is it called this? Instead of SCLK? Shouldn't this be read from DAC.CPP??? Yes, it should. !!! FIX !!!"
- JERRYI2SInterruptDivide &= 0xFF;
// We don't have to divide the RISC clock rate by this--the reason is a bit
// convoluted. Will put explanation here later...
// What's needed here is to find the ratio of the frequency to the number of clock cycles
// in one second. For example, if the sample rate is 44100, we divide the clock rate by
// this: 26590906 / 44100 = 602 cycles.
// Which means, every 602 cycles that go by we have to generate an interrupt.
- jerryI2SCycles = 32 * (2 * (JERRYI2SInterruptDivide + 1));
+ jerryI2SCycles = 32 * (2 * (sclk + 1));
+//This makes audio faster, but not enough and the pitch is wrong besides
+// jerryI2SCycles = 32 * (2 * (sclk - 1));
-//This should be in this file with an extern reference in the header file so that
-//DAC.CPP can see it... !!! FIX !!!
- extern uint16_t serialMode; // From DAC.CPP
-
- if (serialMode & 0x01) // INTERNAL flag (JERRY is master)
+ // If INTERNAL flag is set, then JERRY's SCLK is master
+ if (smode & SMODE_INTERNAL)
{
- DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE); // This does the 'IRQ enabled' checking...
- double usecs = (float)jerryI2SCycles * RISC_CYCLE_IN_USEC;
+ // This does the 'IRQ enabled' checking...
+ DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
+// double usecs = (float)jerryI2SCycles * RISC_CYCLE_IN_USEC;
+//this fix is almost enough to fix timings in tripper, but not quite enough...
+ double usecs = (float)jerryI2SCycles * (vjs.hardwareTypeNTSC ? RISC_CYCLE_IN_USEC : RISC_CYCLE_PAL_IN_USEC);
SetCallbackTime(JERRYI2SCallback, usecs, EVENT_JERRY);
}
- else // JERRY is slave to external word clock
+ else
{
+ // JERRY is slave to external word clock
+
//Note that 44100 Hz requires samples every 22.675737 usec.
//When JERRY is slave to the word clock, we need to do interrupts either at 44.1K
//sample rate or at a 88.2K sample rate (11.332... usec).
// else if (offset >= 0xF17C00 && offset <= 0xF17C01)
// return anajoy_byte_read(offset);
else if (offset >= 0xF14000 && offset <= 0xF14003)
- return JoystickReadByte(offset) | EepromReadByte(offset);
+// return JoystickReadByte(offset) | EepromReadByte(offset);
+ {
+ uint16_t value = JoystickReadWord(offset & 0xFE);
+
+ if (offset & 0x01)
+ value &= 0xFF;
+ else
+ value >>= 8;
+
+ // This is wrong, should only have the lowest bit from $F14001
+ return value | EepromReadByte(offset);
+ }
else if (offset >= 0xF14000 && offset <= 0xF1A0FF)
return EepromReadByte(offset);
}
// SCLK ($F1A150--8 bits wide)
//NOTE: This should be taken care of in DAC...
+#if 0
else if ((offset >= 0xF1A152) && (offset <= 0xF1A153))
{
+#if 0
// WriteLog("JERRY: Writing %02X to SCLK...\n", data);
if ((offset & 0x03) == 2)
- JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0x00FF) | ((uint32_t)data << 8);
+ sclk = (sclk & 0x00FF) | ((uint32_t)data << 8);
else
- JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0xFF00) | (uint32_t)data;
-
+ sclk = (sclk & 0xFF00) | (uint32_t)data;
+#else
+ sclk = data;
+#endif
+#warning "!!! SCLK should be handled in dac.cpp !!!"
JERRYI2SInterruptTimer = -1;
RemoveCallback(JERRYI2SCallback);
JERRYI2SCallback();
// return;
}
+#endif
// LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
else if (offset >= 0xF1A148 && offset <= 0xF1A157)
{
}*/
else if ((offset >= 0xF14000) && (offset <= 0xF14003))
{
- JoystickWriteByte(offset, data);
+WriteLog("JERRYWriteByte: Unhandled byte write to JOYSTICK by %s.\n", whoName[who]);
+// JoystickWriteByte(offset, data);
+ JoystickWriteWord(offset & 0xFE, (uint16_t)data);
+// This is wrong, EEPROM is never written here
EepromWriteByte(offset, data);
return;
}
return;
}
//NOTE: This should be taken care of in DAC...
+#if 0
else if (offset == 0xF1A152) // Bottom half of SCLK ($F1A150)
{
+#warning "!!! SCLK should be handled in dac.cpp !!!"
WriteLog("JERRY: Writing $%X to SCLK (by %s)...\n", data, whoName[who]);
//This should *only* be enabled when SMODE has its INTERNAL bit set! !!! FIX !!!
- JERRYI2SInterruptDivide = (uint8_t)data;
+#if 0
+ sclk = (uint8_t)data;
+#else
+ sclk = data & 0xFF;
+#endif
JERRYI2SInterruptTimer = -1;
RemoveCallback(JERRYI2SCallback);
JERRYI2SCallback();
DACWriteWord(offset, data, who);
return;
}
+#endif
// LTXD/RTXD/SCLK/SMODE $F1A148/4C/50/54 (really 16-bit registers...)
else if (offset >= 0xF1A148 && offset <= 0xF1A156)
{
jerry_ram_8[(offset+1) & 0xFFFF] = data & 0xFF;
}
+
int JERRYGetPIT1Frequency(void)
{
int systemClockFrequency = (vjs.hardwareTypeNTSC ? RISC_CLOCK_RATE_NTSC : RISC_CLOCK_RATE_PAL);
return systemClockFrequency / ((JERRYPIT1Prescaler + 1) * (JERRYPIT1Divider + 1));
}
+
int JERRYGetPIT2Frequency(void)
{
int systemClockFrequency = (vjs.hardwareTypeNTSC ? RISC_CLOCK_RATE_NTSC : RISC_CLOCK_RATE_PAL);
return systemClockFrequency / ((JERRYPIT2Prescaler + 1) * (JERRYPIT2Divider + 1));
}
+