// GCC/SDL port by Niels Wagenaar (Linux/WIN32) and Carwin Jones (BeOS)
// Cleanups/rewrites/fixes by James L. Hammons
//
-// ------------------------------------------------------------
-// JERRY REGISTERS (Mapped by Aaron Giles)
-// ------------------------------------------------------------
-// F10000-F13FFF R/W xxxxxxxx xxxxxxxx Jerry
-// F10000 W xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
-// F10002 W xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
-// F10004 W xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
-// F10008 W xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
-// F10010 W ------xx xxxxxxxx CLK1 - processor clock divider
-// F10012 W ------xx xxxxxxxx CLK2 - video clock divider
-// F10014 W -------- --xxxxxx CLK3 - chroma clock divider
-// F10020 R/W ---xxxxx ---xxxxx JINTCTRL - interrupt control register
-// W ---x---- -------- (J_SYNCLR - clear synchronous serial intf ints)
-// W ----x--- -------- (J_ASYNCLR - clear asynchronous serial intf ints)
-// W -----x-- -------- (J_TIM2CLR - clear timer 2 [tempo] interrupts)
-// W ------x- -------- (J_TIM1CLR - clear timer 1 [sample] interrupts)
-// W -------x -------- (J_EXTCLR - clear external interrupts)
-// R/W -------- ---x---- (J_SYNENA - enable synchronous serial intf ints)
-// R/W -------- ----x--- (J_ASYNENA - enable asynchronous serial intf ints)
-// R/W -------- -----x-- (J_TIM2ENA - enable timer 2 [tempo] interrupts)
-// R/W -------- ------x- (J_TIM1ENA - enable timer 1 [sample] interrupts)
-// R/W -------- -------x (J_EXTENA - enable external interrupts)
-// F10030 R/W -------- xxxxxxxx ASIDATA - asynchronous serial data
-// F10032 W -x------ -xxxxxxx ASICTRL - asynchronous serial control
-// W -x------ -------- (TXBRK - transmit break)
-// W -------- -x------ (CLRERR - clear error)
-// W -------- --x----- (RINTEN - enable receiver interrupts)
-// W -------- ---x---- (TINTEN - enable transmitter interrupts)
-// W -------- ----x--- (RXIPOL - receiver input polarity)
-// W -------- -----x-- (TXOPOL - transmitter output polarity)
-// W -------- ------x- (PAREN - parity enable)
-// W -------- -------x (ODD - odd parity select)
-// F10032 R xxx-xxxx x-xxxxxx ASISTAT - asynchronous serial status
-// R x------- -------- (ERROR - OR of PE,FE,OE)
-// R -x------ -------- (TXBRK - transmit break)
-// R --x----- -------- (SERIN - serial input)
-// R ----x--- -------- (OE - overrun error)
-// R -----x-- -------- (FE - framing error)
-// R ------x- -------- (PE - parity error)
-// R -------x -------- (TBE - transmit buffer empty)
-// R -------- x------- (RBF - receive buffer full)
-// R -------- ---x---- (TINTEN - enable transmitter interrupts)
-// R -------- ----x--- (RXIPOL - receiver input polarity)
-// R -------- -----x-- (TXOPOL - transmitter output polarity)
-// R -------- ------x- (PAREN - parity enable)
-// R -------- -------x (ODD - odd parity)
-// F10034 R/W xxxxxxxx xxxxxxxx ASICLK - asynchronous serial interface clock
-// F10036 R xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
-// F10038 R xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
-// F1003A R xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
-// F1003C R xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
-// ------------------------------------------------------------
-// F14000-F17FFF R/W xxxxxxxx xxxxxxxx Joysticks and GPIO0-5
-// F14000 R xxxxxxxx xxxxxxxx JOYSTICK - read joystick state
-// F14000 W x------- xxxxxxxx JOYSTICK - latch joystick output
-// W x------- -------- (enable joystick outputs)
-// W -------- xxxxxxxx (joystick output data)
-// F14002 R xxxxxxxx xxxxxxxx JOYBUTS - button register
-// F14800-F14FFF R/W xxxxxxxx xxxxxxxx GPI00 - reserved (CD-ROM? no.)
-// F15000-F15FFF R/W xxxxxxxx xxxxxxxx GPI01 - reserved
-// F16000-F16FFF R/W xxxxxxxx xxxxxxxx GPI02 - reserved
-// F17000-F177FF R/W xxxxxxxx xxxxxxxx GPI03 - reserved
-// F17800-F17BFF R/W xxxxxxxx xxxxxxxx GPI04 - reserved
-// F17C00-F17FFF R/W xxxxxxxx xxxxxxxx GPI05 - reserved
-// ------------------------------------------------------------
-// F18000-F1FFFF R/W xxxxxxxx xxxxxxxx Jerry DSP
-// F1A100 R/W xxxxxxxx xxxxxxxx D_FLAGS - DSP flags register
-// R/W x------- -------- (DMAEN - DMA enable)
-// R/W -x------ -------- (REGPAGE - register page)
-// W --x----- -------- (D_EXT0CLR - clear external interrupt 0)
-// W ---x---- -------- (D_TIM2CLR - clear timer 2 interrupt)
-// W ----x--- -------- (D_TIM1CLR - clear timer 1 interrupt)
-// W -----x-- -------- (D_I2SCLR - clear I2S interrupt)
-// W ------x- -------- (D_CPUCLR - clear CPU interrupt)
-// R/W -------x -------- (D_EXT0ENA - enable external interrupt 0)
-// R/W -------- x------- (D_TIM2ENA - enable timer 2 interrupt)
-// R/W -------- -x------ (D_TIM1ENA - enable timer 1 interrupt)
-// R/W -------- --x----- (D_I2SENA - enable I2S interrupt)
-// R/W -------- ---x---- (D_CPUENA - enable CPU interrupt)
-// R/W -------- ----x--- (IMASK - interrupt mask)
-// R/W -------- -----x-- (NEGA_FLAG - ALU negative)
-// R/W -------- ------x- (CARRY_FLAG - ALU carry)
-// R/W -------- -------x (ZERO_FLAG - ALU zero)
-// F1A102 R/W -------- ------xx D_FLAGS - upper DSP flags
-// R/W -------- ------x- (D_EXT1ENA - enable external interrupt 1)
-// R/W -------- -------x (D_EXT1CLR - clear external interrupt 1)
-// F1A104 W -------- ----xxxx D_MTXC - matrix control register
-// W -------- ----x--- (MATCOL - column/row major)
-// W -------- -----xxx (MATRIX3-15 - matrix width)
-// F1A108 W ----xxxx xxxxxx-- D_MTXA - matrix address register
-// F1A10C W -------- -----x-x D_END - data organization register
-// W -------- -----x-- (BIG_INST - big endian instruction fetch)
-// W -------- -------x (BIG_IO - big endian I/O)
-// F1A110 R/W xxxxxxxx xxxxxxxx D_PC - DSP program counter
-// F1A114 R/W xxxxxxxx xx-xxxxx D_CTRL - DSP control/status register
-// R xxxx---- -------- (VERSION - DSP version code)
-// R/W ----x--- -------- (BUS_HOG - hog the bus!)
-// R/W -----x-- -------- (D_EXT0LAT - external interrupt 0 latch)
-// R/W ------x- -------- (D_TIM2LAT - timer 2 interrupt latch)
-// R/W -------x -------- (D_TIM1LAT - timer 1 interrupt latch)
-// R/W -------- x------- (D_I2SLAT - I2S interrupt latch)
-// R/W -------- -x------ (D_CPULAT - CPU interrupt latch)
-// R/W -------- ---x---- (SINGLE_GO - single step one instruction)
-// R/W -------- ----x--- (SINGLE_STEP - single step mode)
-// R/W -------- -----x-- (FORCEINT0 - cause interrupt 0 on GPU)
-// R/W -------- ------x- (CPUINT - send GPU interrupt to CPU)
-// R/W -------- -------x (DSPGO - enable DSP execution)
-// F1A116 R/W -------- -------x D_CTRL - upper DSP control/status register
-// R/W -------- -------x (D_EXT1LAT - external interrupt 1 latch)
-// F1A118-F1A11B W xxxxxxxx xxxxxxxx D_MOD - modulo instruction mask
-// F1A11C-F1A11F R xxxxxxxx xxxxxxxx D_REMAIN - divide unit remainder
-// F1A11C W -------- -------x D_DIVCTRL - divide unit control
-// W -------- -------x (DIV_OFFSET - 1=16.16 divide, 0=32-bit divide)
-// F1A120-F1A123 R xxxxxxxx xxxxxxxx D_MACHI - multiply & accumulate high bits
-// F1A148 W xxxxxxxx xxxxxxxx R_DAC - right transmit data
-// F1A14C W xxxxxxxx xxxxxxxx L_DAC - left transmit data
-// F1A150 W -------- xxxxxxxx SCLK - serial clock frequency
-// F1A150 R -------- ------xx SSTAT
-// R -------- ------x- (left - no description)
-// R -------- -------x (WS - word strobe status)
-// F1A154 W -------- --xxxx-x SMODE - serial mode
-// W -------- --x----- (EVERYWORD - interrupt on MSB of every word)
-// W -------- ---x---- (FALLING - interrupt on falling edge)
-// W -------- ----x--- (RISING - interrupt of rising edge)
-// W -------- -----x-- (WSEN - enable word strobes)
-// W -------- -------x (INTERNAL - enables serial clock)
-// ------------------------------------------------------------
-// F1B000-F1CFFF R/W xxxxxxxx xxxxxxxx Local DSP RAM
-// ------------------------------------------------------------
-// F1D000 R xxxxxxxx xxxxxxxx ROM_TRI - triangle wave
-// F1D200 R xxxxxxxx xxxxxxxx ROM_SINE - full sine wave
-// F1D400 R xxxxxxxx xxxxxxxx ROM_AMSINE - amplitude modulated sine wave
-// F1D600 R xxxxxxxx xxxxxxxx ROM_12W - sine wave and second order harmonic
-// F1D800 R xxxxxxxx xxxxxxxx ROM_CHIRP16 - chirp
-// F1DA00 R xxxxxxxx xxxxxxxx ROM_NTRI - traingle wave with noise
-// F1DC00 R xxxxxxxx xxxxxxxx ROM_DELTA - spike
-// F1DE00 R xxxxxxxx xxxxxxxx ROM_NOISE - white noise
-// ------------------------------------------------------------
+// JLH = James L. Hammons
+//
+// WHO WHEN WHAT
+// --- ---------- -----------------------------------------------------------
+// JLH 11/25/2009 Major rewrite of memory subsystem and handlers
+//
+
+// ------------------------------------------------------------
+// JERRY REGISTERS (Mapped by Aaron Giles)
+// ------------------------------------------------------------
+// F10000-F13FFF R/W xxxxxxxx xxxxxxxx Jerry
+// F10000 W xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
+// F10002 W xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
+// F10004 W xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
+// F10008 W xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
+// F10010 W ------xx xxxxxxxx CLK1 - processor clock divider
+// F10012 W ------xx xxxxxxxx CLK2 - video clock divider
+// F10014 W -------- --xxxxxx CLK3 - chroma clock divider
+// F10020 R/W ---xxxxx ---xxxxx JINTCTRL - interrupt control register
+// W ---x---- -------- (J_SYNCLR - clear synchronous serial intf ints)
+// W ----x--- -------- (J_ASYNCLR - clear asynchronous serial intf ints)
+// W -----x-- -------- (J_TIM2CLR - clear timer 2 [tempo] interrupts)
+// W ------x- -------- (J_TIM1CLR - clear timer 1 [sample] interrupts)
+// W -------x -------- (J_EXTCLR - clear external interrupts)
+// R/W -------- ---x---- (J_SYNENA - enable synchronous serial intf ints)
+// R/W -------- ----x--- (J_ASYNENA - enable asynchronous serial intf ints)
+// R/W -------- -----x-- (J_TIM2ENA - enable timer 2 [tempo] interrupts)
+// R/W -------- ------x- (J_TIM1ENA - enable timer 1 [sample] interrupts)
+// R/W -------- -------x (J_EXTENA - enable external interrupts)
+// F10030 R/W -------- xxxxxxxx ASIDATA - asynchronous serial data
+// F10032 W -x------ -xxxxxxx ASICTRL - asynchronous serial control
+// W -x------ -------- (TXBRK - transmit break)
+// W -------- -x------ (CLRERR - clear error)
+// W -------- --x----- (RINTEN - enable receiver interrupts)
+// W -------- ---x---- (TINTEN - enable transmitter interrupts)
+// W -------- ----x--- (RXIPOL - receiver input polarity)
+// W -------- -----x-- (TXOPOL - transmitter output polarity)
+// W -------- ------x- (PAREN - parity enable)
+// W -------- -------x (ODD - odd parity select)
+// F10032 R xxx-xxxx x-xxxxxx ASISTAT - asynchronous serial status
+// R x------- -------- (ERROR - OR of PE,FE,OE)
+// R -x------ -------- (TXBRK - transmit break)
+// R --x----- -------- (SERIN - serial input)
+// R ----x--- -------- (OE - overrun error)
+// R -----x-- -------- (FE - framing error)
+// R ------x- -------- (PE - parity error)
+// R -------x -------- (TBE - transmit buffer empty)
+// R -------- x------- (RBF - receive buffer full)
+// R -------- ---x---- (TINTEN - enable transmitter interrupts)
+// R -------- ----x--- (RXIPOL - receiver input polarity)
+// R -------- -----x-- (TXOPOL - transmitter output polarity)
+// R -------- ------x- (PAREN - parity enable)
+// R -------- -------x (ODD - odd parity)
+// F10034 R/W xxxxxxxx xxxxxxxx ASICLK - asynchronous serial interface clock
+// F10036 R xxxxxxxx xxxxxxxx JPIT1 - timer 1 pre-scaler
+// F10038 R xxxxxxxx xxxxxxxx JPIT2 - timer 1 divider
+// F1003A R xxxxxxxx xxxxxxxx JPIT3 - timer 2 pre-scaler
+// F1003C R xxxxxxxx xxxxxxxx JPIT4 - timer 2 divider
+// ------------------------------------------------------------
+// F14000-F17FFF R/W xxxxxxxx xxxxxxxx Joysticks and GPIO0-5
+// F14000 R xxxxxxxx xxxxxxxx JOYSTICK - read joystick state
+// F14000 W x------- xxxxxxxx JOYSTICK - latch joystick output
+// W x------- -------- (enable joystick outputs)
+// W -------- xxxxxxxx (joystick output data)
+// F14002 R xxxxxxxx xxxxxxxx JOYBUTS - button register
+// F14800-F14FFF R/W xxxxxxxx xxxxxxxx GPI00 - reserved (CD-ROM? no.)
+// F15000-F15FFF R/W xxxxxxxx xxxxxxxx GPI01 - reserved
+// F16000-F16FFF R/W xxxxxxxx xxxxxxxx GPI02 - reserved
+// F17000-F177FF R/W xxxxxxxx xxxxxxxx GPI03 - reserved
+// F17800-F17BFF R/W xxxxxxxx xxxxxxxx GPI04 - reserved
+// F17C00-F17FFF R/W xxxxxxxx xxxxxxxx GPI05 - reserved
+// ------------------------------------------------------------
+// F18000-F1FFFF R/W xxxxxxxx xxxxxxxx Jerry DSP
+// F1A100 R/W xxxxxxxx xxxxxxxx D_FLAGS - DSP flags register
+// R/W x------- -------- (DMAEN - DMA enable)
+// R/W -x------ -------- (REGPAGE - register page)
+// W --x----- -------- (D_EXT0CLR - clear external interrupt 0)
+// W ---x---- -------- (D_TIM2CLR - clear timer 2 interrupt)
+// W ----x--- -------- (D_TIM1CLR - clear timer 1 interrupt)
+// W -----x-- -------- (D_I2SCLR - clear I2S interrupt)
+// W ------x- -------- (D_CPUCLR - clear CPU interrupt)
+// R/W -------x -------- (D_EXT0ENA - enable external interrupt 0)
+// R/W -------- x------- (D_TIM2ENA - enable timer 2 interrupt)
+// R/W -------- -x------ (D_TIM1ENA - enable timer 1 interrupt)
+// R/W -------- --x----- (D_I2SENA - enable I2S interrupt)
+// R/W -------- ---x---- (D_CPUENA - enable CPU interrupt)
+// R/W -------- ----x--- (IMASK - interrupt mask)
+// R/W -------- -----x-- (NEGA_FLAG - ALU negative)
+// R/W -------- ------x- (CARRY_FLAG - ALU carry)
+// R/W -------- -------x (ZERO_FLAG - ALU zero)
+// F1A102 R/W -------- ------xx D_FLAGS - upper DSP flags
+// R/W -------- ------x- (D_EXT1ENA - enable external interrupt 1)
+// R/W -------- -------x (D_EXT1CLR - clear external interrupt 1)
+// F1A104 W -------- ----xxxx D_MTXC - matrix control register
+// W -------- ----x--- (MATCOL - column/row major)
+// W -------- -----xxx (MATRIX3-15 - matrix width)
+// F1A108 W ----xxxx xxxxxx-- D_MTXA - matrix address register
+// F1A10C W -------- -----x-x D_END - data organization register
+// W -------- -----x-- (BIG_INST - big endian instruction fetch)
+// W -------- -------x (BIG_IO - big endian I/O)
+// F1A110 R/W xxxxxxxx xxxxxxxx D_PC - DSP program counter
+// F1A114 R/W xxxxxxxx xx-xxxxx D_CTRL - DSP control/status register
+// R xxxx---- -------- (VERSION - DSP version code)
+// R/W ----x--- -------- (BUS_HOG - hog the bus!)
+// R/W -----x-- -------- (D_EXT0LAT - external interrupt 0 latch)
+// R/W ------x- -------- (D_TIM2LAT - timer 2 interrupt latch)
+// R/W -------x -------- (D_TIM1LAT - timer 1 interrupt latch)
+// R/W -------- x------- (D_I2SLAT - I2S interrupt latch)
+// R/W -------- -x------ (D_CPULAT - CPU interrupt latch)
+// R/W -------- ---x---- (SINGLE_GO - single step one instruction)
+// R/W -------- ----x--- (SINGLE_STEP - single step mode)
+// R/W -------- -----x-- (FORCEINT0 - cause interrupt 0 on GPU)
+// R/W -------- ------x- (CPUINT - send GPU interrupt to CPU)
+// R/W -------- -------x (DSPGO - enable DSP execution)
+// F1A116 R/W -------- -------x D_CTRL - upper DSP control/status register
+// R/W -------- -------x (D_EXT1LAT - external interrupt 1 latch)
+// F1A118-F1A11B W xxxxxxxx xxxxxxxx D_MOD - modulo instruction mask
+// F1A11C-F1A11F R xxxxxxxx xxxxxxxx D_REMAIN - divide unit remainder
+// F1A11C W -------- -------x D_DIVCTRL - divide unit control
+// W -------- -------x (DIV_OFFSET - 1=16.16 divide, 0=32-bit divide)
+// F1A120-F1A123 R xxxxxxxx xxxxxxxx D_MACHI - multiply & accumulate high bits
+// F1A148 W xxxxxxxx xxxxxxxx R_DAC - right transmit data
+// F1A14C W xxxxxxxx xxxxxxxx L_DAC - left transmit data
+// F1A150 W -------- xxxxxxxx SCLK - serial clock frequency
+// F1A150 R -------- ------xx SSTAT
+// R -------- ------x- (left - no description)
+// R -------- -------x (WS - word strobe status)
+// F1A154 W -------- --xxxx-x SMODE - serial mode
+// W -------- --x----- (EVERYWORD - interrupt on MSB of every word)
+// W -------- ---x---- (FALLING - interrupt on falling edge)
+// W -------- ----x--- (RISING - interrupt of rising edge)
+// W -------- -----x-- (WSEN - enable word strobes)
+// W -------- -------x (INTERNAL - enables serial clock)
+// ------------------------------------------------------------
+// F1B000-F1CFFF R/W xxxxxxxx xxxxxxxx Local DSP RAM
+// ------------------------------------------------------------
+// F1D000 R xxxxxxxx xxxxxxxx ROM_TRI - triangle wave
+// F1D200 R xxxxxxxx xxxxxxxx ROM_SINE - full sine wave
+// F1D400 R xxxxxxxx xxxxxxxx ROM_AMSINE - amplitude modulated sine wave
+// F1D600 R xxxxxxxx xxxxxxxx ROM_12W - sine wave and second order harmonic
+// F1D800 R xxxxxxxx xxxxxxxx ROM_CHIRP16 - chirp
+// F1DA00 R xxxxxxxx xxxxxxxx ROM_NTRI - traingle wave with noise
+// F1DC00 R xxxxxxxx xxxxxxxx ROM_DELTA - spike
+// F1DE00 R xxxxxxxx xxxxxxxx ROM_NOISE - white noise
+// ------------------------------------------------------------
#include "jerry.h"
#include "jaguar.h"
#include "joystick.h"
#include "log.h"
+#include "m68k.h"
+#include "tom.h"
+//#include "memory.h"
#include "wavetable.h"
//Note that 44100 Hz requires samples every 22.675737 usec.
uint32 jerryI2SCycles;
uint32 jerryIntPending;
+static uint16 jerryInterruptMask = 0;
+static uint16 jerryPendingInterrupt = 0;
// Private function prototypes
void JERRYResetPIT1(void);
void JERRYI2SExec(uint32 cycles)
{
#ifndef NEW_TIMER_SYSTEM
+#warning "externed var in source--should be in header file. !!! FIX !!!"
extern uint16 serialMode; // From DAC.CPP
if (serialMode & 0x01) // INTERNAL flag (JERRY is master)
{
// Why is it called this? Instead of SCLK? Shouldn't this be read from DAC.CPP???
//Yes, it should. !!! FIX !!!
- jerry_i2s_interrupt_divide &= 0xFF;
+ JERRYI2SInterruptDivide &= 0xFF;
- if (jerry_i2s_interrupt_timer == -1)
+ if (JERRYI2SInterruptTimer == -1)
{
// We don't have to divide the RISC clock rate by this--the reason is a bit
// convoluted. Will put explanation here later...
// 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 * (jerry_i2s_interrupt_divide + 1));
+ jerryI2SCycles = 32 * (2 * (JERRYI2SInterruptDivide + 1));
}
- jerry_i2s_interrupt_timer -= cycles;
- if (jerry_i2s_interrupt_timer <= 0)
+ JERYI2SInterruptTimer -= cycles;
+ if (JERRYI2SInterruptTimer <= 0)
{
//This is probably wrong as well (i.e., need to check enable lines)... !!! FIX !!!
DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
- jerry_i2s_interrupt_timer += jerryI2SCycles;
+ JERRYI2SInterruptTimer += jerryI2SCycles;
#ifdef JERRY_DEBUG
- if (jerry_i2s_interrupt_timer < 0)
- WriteLog("JERRY: Missed generating an interrupt (missed %u)!\n", (-jerry_i2s_interrupt_timer / jerryI2SCycles) + 1);
+ if (JERRYI2SInterruptTimer < 0)
+ WriteLog("JERRY: Missed generating an interrupt (missed %u)!\n", (-JERRYI2SInterruptTimer / jerryI2SCycles) + 1);
#endif
}
}
// The whole interrupt system is pretty much borked and is need of an overhaul.
// What we need is a way of handling these interrupts when they happen instead of
// scanline boundaries the way it is now.
- jerry_i2s_interrupt_timer -= cycles;
- if (jerry_i2s_interrupt_timer <= 0)
+ JERRYI2SInterruptTimer -= cycles;
+ if (JERRYI2SInterruptTimer <= 0)
{
//This is probably wrong as well (i.e., need to check enable lines)... !!! FIX !!! [DONE]
if (ButchIsReadyToSend())//Not sure this is right spot to check...
SetSSIWordsXmittedFromButch();
DSPSetIRQLine(DSPIRQ_SSI, ASSERT_LINE);
}
- jerry_i2s_interrupt_timer += 602;
+ JERRYI2SInterruptTimer += 602;
}
}
#else
{
//WriteLog("i2s: reseting\n");
//This is really SCLK... !!! FIX !!!
- jerry_i2s_interrupt_divide = 8;
- jerry_i2s_interrupt_timer = -1;
+ JERRYI2SInterruptDivide = 8;
+ JERRYI2SInterruptTimer = -1;
}
void JERRYResetPIT1(void)
#endif
}
+// This is the cause of the regressions in Cybermorph and Missile Command 3D...
+// Solution: Probably have to check the DSP enable bit before sending these thru.
+//#define JERRY_NO_IRQS
void JERRYPIT1Callback(void)
{
+#ifndef JERRY_NO_IRQS
+//WriteLog("JERRY: In PIT1 callback, IRQM=$%04X\n", jerryInterruptMask);
+ if (TOMIRQEnabled(IRQ_DSP))
+ {
+ if (jerryInterruptMask & IRQ2_TIMER1) // CPU Timer 1 IRQ
+ {
+// Not sure, but I think we don't generate another IRQ if one's already going...
+// But this seems to work... :-/
+ jerryPendingInterrupt |= IRQ2_TIMER1;
+ m68k_set_irq(2); // Generate 68K IPL 2
+ }
+ }
+#endif
+
DSPSetIRQLine(DSPIRQ_TIMER0, ASSERT_LINE); // This does the 'IRQ enabled' checking...
JERRYResetPIT1();
}
void JERRYPIT2Callback(void)
{
+#ifndef JERRY_NO_IRQS
+ if (TOMIRQEnabled(IRQ_DSP))
+ {
+//WriteLog("JERRY: In PIT2 callback, IRQM=$%04X\n", jerryInterruptMask);
+ if (jerryInterruptMask & IRQ2_TIMER2) // CPU Timer 2 IRQ
+ {
+ jerryPendingInterrupt |= IRQ2_TIMER2;
+ m68k_set_irq(2); // Generate 68K IPL 2
+ }
+ }
+#endif
+
DSPSetIRQLine(DSPIRQ_TIMER1, ASSERT_LINE); // This does the 'IRQ enabled' checking...
JERRYResetPIT2();
}
{
// Why is it called this? Instead of SCLK? Shouldn't this be read from DAC.CPP???
//Yes, it should. !!! FIX !!!
-#warning "Yes, it should. !!! FIX !!!"
- jerry_i2s_interrupt_divide &= 0xFF;
+#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 * (jerry_i2s_interrupt_divide + 1));
+ jerryI2SCycles = 32 * (2 * (JERRYI2SInterruptDivide + 1));
//This should be in this file with an extern reference in the header file so that
//DAC.CPP can see it... !!! FIX !!!
void JERRYInit(void)
{
-// clock_init();
-// anajoy_init();
JoystickInit();
DACInit();
-//This should be handled with the cart initialization...
-// eeprom_init();
-// memory_malloc_secure((void **)&jerry_ram_8, 0x10000, "JERRY RAM/ROM");
- memcpy(&jerry_ram_8[0xD000], wave_table, 0x1000);
+ memcpy(&jerry_ram_8[0xD000], waveTableROM, 0x1000);
JERRYPIT1Prescaler = 0xFFFF;
JERRYPIT2Prescaler = 0xFFFF;
JERRYPIT1Divider = 0xFFFF;
JERRYPIT2Divider = 0xFFFF;
+ jerryInterruptMask = 0x0000;
+ jerryPendingInterrupt = 0x0000;
}
void JERRYReset(void)
{
-// clock_reset();
-// anajoy_reset();
JoystickReset();
EepromReset();
JERRYResetI2S();
JERRYPIT2Divider = 0xFFFF;
jerry_timer_1_counter = 0;
jerry_timer_2_counter = 0;
+ jerryInterruptMask = 0x0000;
+ jerryPendingInterrupt = 0x0000;
}
void JERRYDone(void)
{
WriteLog("JERRY: M68K Interrupt control ($F10020) = %04X\n", GET16(jerry_ram_8, 0x20));
-// memory_free(jerry_ram_8);
-// clock_done();
-// anajoy_done();
JoystickDone();
DACDone();
EepromDone();
bool JERRYIRQEnabled(int irq)
{
// Read the word @ $F10020
- return jerry_ram_8[0x21] & (1 << irq);
+// return jerry_ram_8[0x21] & (1 << irq);
+ return jerryInterruptMask & irq;
}
void JERRYSetPendingIRQ(int irq)
{
// This is the shadow of INT (it's a split RO/WO register)
- jerryIntPending |= (1 << irq);
+// jerryIntPending |= (1 << irq);
+ jerryPendingInterrupt |= irq;
}
//
// else if ((offset >= 0xF10010) && (offset <= 0xF10015))
// return clock_word_read(offset);
else if (offset == 0xF10020)
- return jerryIntPending;
+// return jerryIntPending;
+ return jerryPendingInterrupt;
// else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
// return anajoy_word_read(offset);
else if (offset == 0xF14000)
{
// WriteLog("JERRY: Writing %02X to SCLK...\n", data);
if ((offset & 0x03) == 2)
- jerry_i2s_interrupt_divide = (jerry_i2s_interrupt_divide & 0x00FF) | ((uint32)data << 8);
+ JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0x00FF) | ((uint32)data << 8);
else
- jerry_i2s_interrupt_divide = (jerry_i2s_interrupt_divide & 0xFF00) | (uint32)data;
+ JERRYI2SInterruptDivide = (JERRYI2SInterruptDivide & 0xFF00) | (uint32)data;
- jerry_i2s_interrupt_timer = -1;
+ JERRYI2SInterruptTimer = -1;
#ifndef NEW_TIMER_SYSTEM
jerry_i2s_exec(0);
#else
return;
}//*/
// JERRY -> 68K interrupt enables/latches (need to be handled!)
- else if (offset >= 0xF10020 && offset <= 0xF10023)
+ else if (offset >= 0xF10020 && offset <= 0xF10021)//WAS:23)
{
-WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%02X to $%08X!\n", data, offset);
+ if (offset == 0xF10020)
+ {
+ // Clear pending interrupts...
+ jerryPendingInterrupt &= ~data;
+ }
+ else if (offset == 0xF10021)
+ jerryInterruptMask = data;
+//WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%02X to $%08X!\n", data, offset);
+//WriteLog("JERRY: (Previous is partially handled... IRQMask=$%04X)\n", jerryInterruptMask);
}
/* else if ((offset >= 0xF17C00) && (offset <= 0xF17C01))
{
{
#ifdef JERRY_DEBUG
WriteLog( "JERRY: Writing word %04X at %06X\n", data, offset);
+#endif
+#if 1
+if (offset == 0xF10000)
+ WriteLog("JERRY: JPIT1 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10002)
+ WriteLog("JERRY: JPIT2 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10004)
+ WriteLog("JERRY: JPIT3 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10006)
+ WriteLog("JERRY: JPIT4 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10010)
+ WriteLog("JERRY: CLK1 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10012)
+ WriteLog("JERRY: CLK2 word written by %s: %u\n", whoName[who], data);
+else if (offset == 0xF10014)
+ WriteLog("JERRY: CLK3 word written by %s: %u\n", whoName[who], data);
+//else if (offset == 0xF10020)
+// WriteLog("JERRY: JINTCTRL word written by %s: $%04X\n", whoName[who], data);
#endif
if ((offset >= DSP_CONTROL_RAM_BASE) && (offset < DSP_CONTROL_RAM_BASE+0x20))
{
WriteLog("JERRY: Writing %04X to SCLK (by %s)...\n", data, whoName[who]);
//This should *only* be enabled when SMODE has its INTERNAL bit set! !!! FIX !!!
- jerry_i2s_interrupt_divide = (uint8)data;
- jerry_i2s_interrupt_timer = -1;
+ JERRYI2SInterruptDivide = (uint8)data;
+ JERRYI2SInterruptTimer = -1;
#ifndef NEW_TIMER_SYSTEM
jerry_i2s_exec(0);
#else
// JERRY -> 68K interrupt enables/latches (need to be handled!)
else if (offset >= 0xF10020 && offset <= 0xF10022)
{
-WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%04X to $%08X!\n", data, offset);
+ jerryInterruptMask = data & 0xFF;
+ jerryPendingInterrupt &= ~(data >> 8);
+//WriteLog("JERRY: (68K int en/lat - Unhandled!) Tried to write $%04X to $%08X!\n", data, offset);
+//WriteLog("JERRY: (Previous is partially handled... IRQMask=$%04X)\n", jerryInterruptMask);
+ return;
}
/* else if (offset >= 0xF17C00 && offset < 0xF17C02)
{