SHARP X1 Emulator 'eX1'
SHARP X1twin Emulator 'eX1twin'
SHARP X1turbo Emulator 'eX1turbo'
+ SHARP X1turboZ Emulator 'eX1turboZ'
Author : Takeda.Toshiya
Date : 2009.03.11-
#include "../datarec.h"
#include "../disk.h"
+#include "../harddisk.h"
#include "../hd46505.h"
#include "../i8255.h"
#include "../io.h"
#include "../mb8877.h"
+#include "../mz1p17.h"
+#include "../noise.h"
+//#include "../pcpr201.h"
+#include "../prnfile.h"
+#include "../scsi_hdd.h"
+#include "../scsi_host.h"
#include "../ym2151.h"
-#include "../ym2203.h"
+//#include "../ym2203.h"
+#include "../ay_3_891x.h"
#include "../z80.h"
#include "../z80ctc.h"
#include "../z80sio.h"
#include "joystick.h"
#include "memory.h"
#include "mouse.h"
-#include "printer.h"
#include "psub.h"
+#include "sasi.h"
#include "../mcs48.h"
#include "../upd1990a.h"
#include "../huc6280.h"
#include "../pcengine/pce.h"
#endif
-
-#include "../../fileio.h"
+#if defined(Q_OS_WIN)
+DLL_PREFIX_I struct cur_time_s cur_time;
+#endif
// ----------------------------------------------------------------------------
// initialize
// ----------------------------------------------------------------------------
-VM::VM(EMU* parent_emu) : emu(parent_emu)
+VM::VM(EMU* parent_emu) : VM_TEMPLATE(parent_emu)
{
- pseudo_sub_cpu = !(FILEIO::IsFileExists(emu->bios_path(SUB_ROM_FILE_NAME)) && FILEIO::IsFileExists(emu->bios_path(KBD_ROM_FILE_NAME)));
+ pseudo_sub_cpu = !(FILEIO::IsFileExisting(create_local_path(SUB_ROM_FILE_NAME)) && FILEIO::IsFileExisting(create_local_path(KBD_ROM_FILE_NAME)));
- sound_device_type = config.sound_device_type;
+ sound_type = config.sound_type;
// create devices
first_device = last_device = NULL;
dummy = new DEVICE(this, emu); // must be 1st device
event = new EVENT(this, emu); // must be 2nd device
+ dummy->set_device_name(_T("1st Dummy"));
drec = new DATAREC(this, emu);
+ drec->set_context_noise_play(new NOISE(this, emu));
+ drec->set_context_noise_stop(new NOISE(this, emu));
+ drec->set_context_noise_fast(new NOISE(this, emu));
crtc = new HD46505(this, emu);
pio = new I8255(this, emu);
io = new IO(this, emu);
fdc = new MB8877(this, emu);
- psg = new YM2203(this, emu);
+ fdc->set_context_noise_seek(new NOISE(this, emu));
+ fdc->set_context_noise_head_down(new NOISE(this, emu));
+ fdc->set_context_noise_head_up(new NOISE(this, emu));
+ sasi_host = new SCSI_HOST(this, emu);
+ for (int i = 0; i < array_length(sasi_hdd); i++) {
+ sasi_hdd[i] = new SCSI_HDD(this, emu);
+ sasi_hdd[i]->set_device_name(_T("SASI Hard Disk Drive #%d"), i + 1);
+ sasi_hdd[i]->scsi_id = i;
+ sasi_hdd[i]->bytes_per_sec = 32 * 1024; // 32KB/s
+ sasi_hdd[i]->set_context_interface(sasi_host);
+ sasi_host->set_context_target(sasi_hdd[i]);
+ }
+ for(int drv = 0; drv < USE_HARD_DISK; drv++) {
+ sasi_hdd[drv >> 1]->set_disk_handler(drv & 1, new HARDDISK(emu));
+ }
+// psg = new YM2203(this, emu);
+ psg = new AY_3_891X(this, emu);
cpu = new Z80(this, emu);
ctc = new Z80CTC(this, emu);
sio = new Z80SIO(this, emu);
- if(sound_device_type >= 1) {
+ if(sound_type >= 1) {
opm1 = new YM2151(this, emu);
+ opm1->set_device_name(_T("YM2151 OPM (CZ-8BS1 #1)"));
ctc1 = new Z80CTC(this, emu);
+ ctc1->set_device_name(_T("Z80 CTC (CZ-8BS1 #1)"));
}
- if(sound_device_type == 2) {
+ if(sound_type == 2) {
opm2 = new YM2151(this, emu);
+ opm2->set_device_name(_T("YM2151 OPM (CZ-8BS1 #2)"));
ctc2 = new Z80CTC(this, emu);
+ ctc2->set_device_name(_T("Z80 CTC (CZ-8BS1 #2)"));
+ }
+ if(config.printer_type == 0) {
+ printer = new PRNFILE(this, emu);
+ } else if(config.printer_type == 1) {
+ printer = new MZ1P17(this, emu);
+// } else if(config.printer_type == 2) {
+// printer = new PCPR201(this, emu);
+ } else {
+ printer = dummy;
}
#ifdef _X1TURBO_FEATURE
dma = new Z80DMA(this, emu);
joy = new JOYSTICK(this, emu);
memory = new MEMORY(this, emu);
mouse = new MOUSE(this, emu);
- printer = new PRINTER(this, emu);
+ sasi = new SASI(this, emu);
if(pseudo_sub_cpu) {
psub = new PSUB(this, emu);
} else {
// sub cpu
cpu_sub = new MCS48(this, emu);
+ cpu_sub->set_device_name(_T("MCS48 MCU (Sub)"));
pio_sub = new I8255(this, emu);
+ pio_sub->set_device_name(_T("i8255 PIO (Sub)"));
rtc_sub = new UPD1990A(this, emu);
+ rtc_sub->set_device_name(_T("uPD1990A RTC (Sub)"));
sub = new SUB(this, emu);
-
+
// keyboard
cpu_kbd = new MCS48(this, emu);
+ cpu_kbd->set_device_name(_T("MCS48 MCU (Keyboard)"));
kbd = new KEYBOARD(this, emu);
}
event->set_context_cpu(cpu_sub, 6000000);
event->set_context_cpu(cpu_kbd, 6000000);
}
- if(sound_device_type >= 1) {
+ if(sound_type >= 1) {
event->set_context_sound(opm1);
}
- if(sound_device_type == 2) {
+ if(sound_type == 2) {
event->set_context_sound(opm2);
}
event->set_context_sound(psg);
event->set_context_sound(drec);
-
- drec->set_context_out(pio, SIG_I8255_PORT_B, 0x02);
+ event->set_context_sound(fdc->get_context_noise_seek());
+ event->set_context_sound(fdc->get_context_noise_head_down());
+ event->set_context_sound(fdc->get_context_noise_head_up());
+ event->set_context_sound(drec->get_context_noise_play());
+ event->set_context_sound(drec->get_context_noise_stop());
+ event->set_context_sound(drec->get_context_noise_fast());
+
+ drec->set_context_ear(pio, SIG_I8255_PORT_B, 0x02);
crtc->set_context_vblank(display, SIG_DISPLAY_VBLANK, 1);
+ crtc->set_context_disp(display, SIG_DISPLAY_DISP, 1);
crtc->set_context_vblank(pio, SIG_I8255_PORT_B, 0x80);
crtc->set_context_vsync(pio, SIG_I8255_PORT_B, 0x04);
- pio->set_context_port_a(printer, SIG_PRINTER_OUT, 0xff, 0);
- pio->set_context_port_c(drec, SIG_DATAREC_OUT, 0x01, 0);
+ pio->set_context_port_a(printer, SIG_PRINTER_DATA, 0xff, 0);
+ pio->set_context_port_c(drec, SIG_DATAREC_MIC, 0x01, 0);
pio->set_context_port_c(display, SIG_DISPLAY_COLUMN40, 0x40, 0);
pio->set_context_port_c(iobus, SIG_IOBUS_MODE, 0x60, 0);
- pio->set_context_port_c(printer, SIG_PRINTER_STB, 0x80, 0);
+ pio->set_context_port_c(printer, SIG_PRINTER_STROBE, 0x80, 0);
#ifdef _X1TURBO_FEATURE
fdc->set_context_drq(dma, SIG_Z80DMA_READY, 1);
#endif
+ sasi_host->set_context_irq(sasi, SIG_SASI_IRQ, 1);
+ sasi_host->set_context_drq(sasi, SIG_SASI_DRQ, 1);
ctc->set_context_zc0(ctc, SIG_Z80CTC_TRIG_3, 1);
ctc->set_context_zc1(sio, SIG_Z80SIO_TX_CLK_CH0, 1);
ctc->set_context_zc1(sio, SIG_Z80SIO_RX_CLK_CH0, 1);
// sio->set_rx_clock(0, 9600 * 16); // clock is from Z-80CTC ch1 (2MHz/13)
// sio->set_tx_clock(1, 4800 * 16); // 4800 baud for mouse
// sio->set_rx_clock(1, 4800 * 16); // clock is from Z-80CTC ch2 (2MHz/26)
-
- if(sound_device_type >= 1) {
+
+ if(sound_type >= 1) {
ctc1->set_context_zc0(ctc1, SIG_Z80CTC_TRIG_3, 1);
// ctc1->set_constant_clock(1, CPU_CLOCKS >> 1);
// ctc1->set_constant_clock(2, CPU_CLOCKS >> 1);
}
- if(sound_device_type == 2) {
+ if(sound_type == 2) {
ctc2->set_context_zc0(ctc2, SIG_Z80CTC_TRIG_3, 1);
// ctc2->set_constant_clock(1, CPU_CLOCKS >> 1);
// ctc2->set_constant_clock(2, CPU_CLOCKS >> 1);
}
+ if(config.printer_type == 0) {
+ PRNFILE *prnfile = (PRNFILE *)printer;
+ prnfile->set_context_busy(pio, SIG_I8255_PORT_B, 0x08);
+ } else if(config.printer_type == 1) {
+ MZ1P17 *mz1p17 = (MZ1P17 *)printer;
+ mz1p17->mode = MZ1P17_MODE_X1;
+ mz1p17->set_context_busy(pio, SIG_I8255_PORT_B, 0x08);
+// } else if(config.printer_type == 2) {
+// PCPR201 *pcpr201 = (PCPR201 *)printer;
+// pcpr201->set_context_busy(pio, SIG_I8255_PORT_B, 0x08);
+ }
#ifdef _X1TURBO_FEATURE
dma->set_context_memory(memory);
dma->set_context_io(iobus);
#ifdef _X1TURBO_FEATURE
display->set_context_cpu(cpu);
- display->set_context_crtc(crtc);
#endif
+ display->set_context_crtc(crtc);
display->set_vram_ptr(iobus->get_vram());
display->set_regs_ptr(crtc->get_regs());
floppy->set_context_fdc(fdc);
memory->set_context_pio(pio);
#endif
mouse->set_context_sio(sio);
+ sasi->set_context_host(sasi_host);
+#ifdef _X1TURBO_FEATURE
+ sasi->set_context_dma(dma);
+#endif
if(pseudo_sub_cpu) {
drec->set_context_remote(psub, SIG_PSUB_TAPE_REMOTE, 1);
Z80_DAISY_CHAIN(sio); // CZ-8BM2
Z80_DAISY_CHAIN(ctc);
#endif
- if(sound_device_type >= 1) {
+ if(sound_type >= 1) {
Z80_DAISY_CHAIN(ctc1);
}
- if(sound_device_type == 2) {
+ if(sound_type == 2) {
Z80_DAISY_CHAIN(ctc2);
}
#ifdef _X1TURBO_FEATURE
}
// i/o bus
- if(sound_device_type >= 1) {
+ if(sound_type >= 1) {
io->set_iomap_single_w(0x700, opm1);
io->set_iovalue_single_r(0x700, 0x00);
io->set_iomap_single_rw(0x701, opm1);
io->set_iomap_range_rw(0x704, 0x707, ctc1);
#endif
}
- if(sound_device_type == 2) {
+ if(sound_type == 2) {
io->set_iomap_single_w(0x708, opm2);
io->set_iovalue_single_r(0x708, 0x00);
io->set_iomap_single_rw(0x709, opm2);
io->set_iomap_range_rw(0xd00, 0xd03, emm);
io->set_iomap_range_r(0xe80, 0xe81, display);
io->set_iomap_range_w(0xe80, 0xe82, display);
+ io->set_iomap_range_rw(0xfd0, 0xfd3, sasi);
io->set_iomap_range_rw(0xff8, 0xffb, fdc);
io->set_iomap_single_w(0xffc, floppy);
#ifdef _X1TURBO_FEATURE
for(int i = 0x1c00; i <= 0x1cff; i++) {
io->set_iomap_alias_w(i, psg, 0);
}
+ io->set_iomap_range_r(0x1e00, 0x1eff, memory);
io->set_iomap_range_w(0x1d00, 0x1eff, memory);
-#ifndef _X1TURBO_FEATURE
- io->set_iomap_range_rw(0x1f98, 0x1f9b, sio); // CZ-8BM2
- io->set_iomap_range_rw(0x1fa8, 0x1fab, ctc);
-#else
+#ifdef _X1TURBO_FEATURE
io->set_iomap_range_rw(0x1f80, 0x1f8f, dma);
io->set_iomap_range_rw(0x1f90, 0x1f93, sio);
io->set_iomap_range_rw(0x1fa0, 0x1fa3, ctc);
#ifdef _X1TURBOZ
+ io->set_iomap_single_rw(0x1fb0, display);
+ io->set_iomap_range_rw(0x1fb9, 0x1fc5, display);
io->set_iomap_single_rw(0x1fd0, display);
io->set_iomap_single_rw(0x1fe0, display);
#else
// 0x1ff0: dipswitch
// io->set_iovalue_single_r(0x1ff0, 0x00);
update_dipswitch();
+#else
+ io->set_iomap_range_rw(0x1f98, 0x1f9b, sio); // CZ-8BM2
+ io->set_iomap_range_rw(0x1fa8, 0x1fab, ctc);
#endif
io->set_iomap_range_rw(0x2000, 0x3fff, display); // tvram
pceevent = new EVENT(this, emu);
pceevent->set_frames_per_sec(PCE_FRAMES_PER_SEC);
pceevent->set_lines_per_frame(PCE_LINES_PER_FRAME);
-
+ pceevent->set_device_name(_T("EVENT (PC-ENGINE)"));
pcecpu = new HUC6280(this, emu);
+ pcecpu->set_device_name(_T("HuC6820 CPU (PC-ENGINE)"));
pcecpu->set_context_event_manager(pceevent);
pce = new PCE(this, emu);
+ pce->set_device_name(_T("SUB SYSTEM (PC-ENGINE)"));
pce->set_context_event_manager(pceevent);
-
+
pceevent->set_context_cpu(pcecpu, PCE_CPU_CLOCKS);
pceevent->set_context_sound(pce);
pcecpu->set_context_mem(pce);
pcecpu->set_context_io(pce);
#ifdef USE_DEBUGGER
-// pcecpu->set_context_debugger(new DEBUGGER(this, emu));
+ pcecpu->set_context_debugger(new DEBUGGER(this, emu));
#endif
pce->set_context_cpu(pcecpu);
#endif
// initialize all devices
+#if defined(__GIT_REPO_VERSION)
+ strncpy(_git_revision, __GIT_REPO_VERSION, sizeof(_git_revision) - 1);
+#endif
for(DEVICE* device = first_device; device; device = device->next_device) {
device->initialize();
}
if(!pseudo_sub_cpu) {
// load rom images after cpustate is allocated
- cpu_sub->load_rom_image(emu->bios_path(SUB_ROM_FILE_NAME));
- cpu_kbd->load_rom_image(emu->bios_path(KBD_ROM_FILE_NAME));
+ cpu_sub->load_rom_image(create_local_path(SUB_ROM_FILE_NAME));
+ cpu_kbd->load_rom_image(create_local_path(KBD_ROM_FILE_NAME));
// patch to set the current year
- uint8 *rom = cpu_sub->get_rom_ptr();
- sub->rom_crc32 = getcrc32(rom, 0x800); // 2KB
+ uint8_t *rom = cpu_sub->get_rom_ptr();
+ sub->rom_crc32 = get_crc32(rom, 0x800); // 2KB
if(rom[0x23] == 0xb9 && rom[0x24] == 0x35 && rom[0x25] == 0xb1) {
+ //dll_cur_time_t cur_time;
cur_time_t cur_time;
- emu->get_host_time(&cur_time);
+ get_host_time(&cur_time);
rom[0x26] = TO_BCD(cur_time.year);
}
}
- for(int i = 0; i < MAX_DRIVE; i++) {
-#ifdef _X1TURBO_FEATURE
- fdc->set_drive_type(i, DRIVE_TYPE_2DD);
+ for(int drv = 0; drv < MAX_DRIVE; drv++) {
+//#ifdef _X1TURBO_FEATURE
+// fdc->set_drive_type(drv, DRIVE_TYPE_2DD);
+//#else
+ fdc->set_drive_type(drv, DRIVE_TYPE_2D);
+//#endif
+// fdc->set_drive_rpm(drv, 300);
+// fdc->set_drive_mfm(drv, true);
+ }
+ for(int drv = 0; drv < USE_HARD_DISK; drv++) {
+#if defined(OPEN_HARD_DISK_IN_RESET)
+ create_local_path(hd_file_path[drv], _MAX_PATH, _T("SASI%d.DAT"), drv);
#else
- fdc->set_drive_type(i, DRIVE_TYPE_2D);
+ open_hard_disk_tmp(drv, create_local_path(_T("SASI%d.DAT"), drv));
#endif
-// fdc->set_drive_rpm(i, 300);
-// fdc->set_drive_mfm(i, true);
}
+ decl_state();
}
VM::~VM()
for(DEVICE* device = first_device; device; device = device->next_device) {
device->reset();
}
- psg->SetReg(0x2e, 0); // set prescaler
+ pio->write_signal(SIG_I8255_PORT_B, 0x00, 0x08); // busy = low
+ psg->set_reg(0x2e, 0); // set prescaler
+
+#if defined(OPEN_HARD_DISK_IN_RESET)
+ // open/close hard disk images
+ for(int drv = 0; drv < USE_HARD_DISK; drv++) {
+ if(hd_file_path[drv][0] != _T('\0')) {
+ open_hard_disk_tmp(drv, hd_file_path[drv]);
+ } else {
+ close_hard_disk_tmp(drv);
+ }
+ }
+#endif
}
void VM::special_reset()
{
event->drive();
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
+ if(pce->is_cart_inserted()) {
pceevent->drive();
}
#endif
}
-double VM::frame_rate()
+double VM::get_frame_rate()
{
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
- return pceevent->frame_rate();
+ if(pce->is_cart_inserted()) {
+ return pceevent->get_frame_rate();
}
#endif
- return event->frame_rate();
+ return event->get_frame_rate();
}
// ----------------------------------------------------------------------------
} else if(index == 2) {
return cpu_kbd;
#ifdef _X1TWIN
- } else if(index == 3 && pce->cart_inserted()) {
+ } else if(index == 3 && pce->is_cart_inserted()) {
return pcecpu;
#endif
}
{
display->draw_screen();
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
+ if(pce->is_cart_inserted()) {
pce->draw_screen();
}
#endif
}
-int VM::access_lamp()
-{
- uint32 status = fdc->read_signal(0);
- return (status & (1 | 4)) ? 1 : (status & (2 | 8)) ? 2 : 0;
-}
-
// ----------------------------------------------------------------------------
// soud manager
// ----------------------------------------------------------------------------
#endif
// init sound gen
- if(sound_device_type >= 1) {
- opm1->init(rate, 4000000, samples, 0);
+ if(sound_type >= 1) {
+ opm1->initialize_sound(rate, 4000000, samples, 0);
}
- if(sound_device_type == 2) {
- opm2->init(rate, 4000000, samples, 0);
+ if(sound_type == 2) {
+ opm2->initialize_sound(rate, 4000000, samples, 0);
}
- psg->init(rate, 2000000, samples, 0, 0);
+ psg->initialize_sound(rate, 2000000, samples, 0, 0);
#ifdef _X1TWIN
pce->initialize_sound(rate);
#endif
}
-uint16* VM::create_sound(int* extra_frames)
+uint16_t* VM::create_sound(int* extra_frames)
{
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
- uint16* buffer = pceevent->create_sound(extra_frames);
+ if(pce->is_cart_inserted()) {
+ uint16_t* buffer = pceevent->create_sound(extra_frames);
for(int i = 0; i < *extra_frames; i++) {
event->drive();
}
return event->create_sound(extra_frames);
}
-int VM::sound_buffer_ptr()
+int VM::get_sound_buffer_ptr()
{
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
- return pceevent->sound_buffer_ptr();
+ if(pce->is_cart_inserted()) {
+ return pceevent->get_sound_buffer_ptr();
}
#endif
- return event->sound_buffer_ptr();
+ return event->get_sound_buffer_ptr();
}
+#ifdef USE_SOUND_VOLUME
+void VM::set_sound_device_volume(int ch, int decibel_l, int decibel_r)
+{
+ if(ch == 0) {
+ psg->set_volume(1, decibel_l, decibel_r);
+ } else if(ch == 1) {
+ if(sound_type >= 1) {
+ opm1->set_volume(0, decibel_l, decibel_r);
+ }
+ } else if(ch == 2) {
+ if(sound_type >= 2) {
+ opm2->set_volume(0, decibel_l, decibel_r);
+ }
+ } else if(ch == 3) {
+ drec->set_volume(0, decibel_l, decibel_r);
+ } else if(ch == 4) {
+ fdc->get_context_noise_seek()->set_volume(0, decibel_l, decibel_r);
+ fdc->get_context_noise_head_down()->set_volume(0, decibel_l, decibel_r);
+ fdc->get_context_noise_head_up()->set_volume(0, decibel_l, decibel_r);
+ } else if(ch == 5) {
+ drec->get_context_noise_play()->set_volume(0, decibel_l, decibel_r);
+ drec->get_context_noise_stop()->set_volume(0, decibel_l, decibel_r);
+ drec->get_context_noise_fast()->set_volume(0, decibel_l, decibel_r);
+#if defined(_X1TWIN)
+ } else if(ch == 6) {
+ pce->set_volume(0, decibel_l, decibel_r);
+#endif
+ }
+}
+#endif
+
// ----------------------------------------------------------------------------
// notify key
// ----------------------------------------------------------------------------
void VM::key_down(int code, bool repeat)
{
#ifdef _X1TWIN
- if(!repeat && !pce->cart_inserted()) {
+ if(!repeat && !pce->is_cart_inserted()) {
#else
if(!repeat) {
#endif
void VM::key_up(int code)
{
#ifdef _X1TWIN
- if(!pce->cart_inserted()) {
+ if(!pce->is_cart_inserted()) {
#endif
if(pseudo_sub_cpu) {
psub->key_up(code);
#endif
}
+bool VM::get_caps_locked()
+{
+#ifdef _X1TWIN
+ if(!pce->is_cart_inserted()) {
+#endif
+ if(pseudo_sub_cpu) {
+ return psub->get_caps_locked();
+ } else {
+ return kbd->get_caps_locked();
+ }
+#ifdef _X1TWIN
+ }
+ return false;
+#endif
+}
+
+bool VM::get_kana_locked()
+{
+#ifdef _X1TWIN
+ if(!pce->is_cart_inserted()) {
+#endif
+ if(pseudo_sub_cpu) {
+ return psub->get_kana_locked();
+ } else {
+ return kbd->get_kana_locked();
+ }
+#ifdef _X1TWIN
+ }
+ return false;
+#endif
+}
+
// ----------------------------------------------------------------------------
// user interface
// ----------------------------------------------------------------------------
-void VM::open_disk(int drv, _TCHAR* file_path, int bank)
+void VM::open_floppy_disk(int drv, const _TCHAR* file_path, int bank)
{
fdc->open_disk(drv, file_path, bank);
}
-void VM::close_disk(int drv)
+void VM::close_floppy_disk(int drv)
{
fdc->close_disk(drv);
}
-bool VM::disk_inserted(int drv)
+bool VM::is_floppy_disk_inserted(int drv)
+{
+ return fdc->is_disk_inserted(drv);
+}
+
+void VM::is_floppy_disk_protected(int drv, bool value)
+{
+ fdc->is_disk_protected(drv, value);
+}
+
+bool VM::is_floppy_disk_protected(int drv)
{
- return fdc->disk_inserted(drv);
+ return fdc->is_disk_protected(drv);
}
-
-void VM::write_protect_fd(int drv, bool flag)
+
+uint32_t VM::is_floppy_disk_accessed()
{
- fdc->write_protect_fd(drv, flag);
+ return fdc->read_signal(0);
}
- bool VM::is_write_protect_fd(int drv)
+
+void VM::open_hard_disk(int drv, const _TCHAR* file_path)
{
- return fdc->is_write_protect_fd(drv);
+ if(drv < USE_HARD_DISK) {
+#if defined(OPEN_HARD_DISK_IN_RESET)
+ my_tcscpy_s(hd_file_path[drv], _MAX_PATH, file_path);
+#else
+ open_hard_disk_tmp(drv, file_path);
+#endif
+ }
}
-void VM::play_tape(_TCHAR* file_path)
+void VM::close_hard_disk(int drv)
+{
+ if(drv < USE_HARD_DISK) {
+#if defined(OPEN_HARD_DISK_IN_RESET)
+ hd_file_path[drv][0] = _T('\0');
+#else
+ close_hard_disk_tmp(drv);
+#endif
+ }
+}
+
+bool VM::is_hard_disk_inserted(int drv)
+{
+ if(drv < USE_HARD_DISK) {
+#if defined(OPEN_HARD_DISK_IN_RESET)
+ return (hd_file_path[drv][0] != _T('\0'));
+#else
+ return is_hard_disk_inserted_tmp(drv);
+#endif
+ }
+ return false;
+}
+
+uint32_t VM::is_hard_disk_accessed()
+{
+ uint32_t status = 0;
+
+ for(int drv = 0; drv < USE_HARD_DISK; drv++) {
+ if(sasi_hdd[drv >> 1]->get_disk_handler(drv & 1)->accessed()) {
+ status |= 1 << drv;
+ }
+ }
+ return status;
+}
+
+void VM::open_hard_disk_tmp(int drv, const _TCHAR* file_path)
+{
+ if(drv < USE_HARD_DISK) {
+ sasi_hdd[drv >> 1]->get_disk_handler(drv & 1)->open(file_path);
+ }
+}
+
+void VM::close_hard_disk_tmp(int drv)
+{
+ if(drv < USE_HARD_DISK) {
+ sasi_hdd[drv >> 1]->get_disk_handler(drv & 1)->close();
+ }
+}
+
+bool VM::is_hard_disk_inserted_tmp(int drv)
+{
+ if(drv < USE_HARD_DISK) {
+ return sasi_hdd[drv >> 1]->get_disk_handler(drv & 1)->mounted();
+ }
+ return false;
+}
+
+void VM::play_tape(int drv, const _TCHAR* file_path)
{
bool value = drec->play_tape(file_path);
if(pseudo_sub_cpu) {
}
}
-void VM::rec_tape(_TCHAR* file_path)
+void VM::rec_tape(int drv, const _TCHAR* file_path)
{
bool value = drec->rec_tape(file_path);
if(pseudo_sub_cpu) {
}
}
-void VM::close_tape()
+void VM::close_tape(int drv)
{
+ emu->lock_vm();
drec->close_tape();
+ emu->unlock_vm();
if(pseudo_sub_cpu) {
psub->close_tape();
} else {
}
}
-bool VM::tape_inserted()
+bool VM::is_tape_inserted(int drv)
{
- return drec->tape_inserted();
+ return drec->is_tape_inserted();
}
-int VM::get_tape_ptr(void)
+bool VM::is_tape_playing(int drv)
{
- return drec->get_tape_ptr();
+ return drec->is_tape_playing();
}
-bool VM::now_skip()
+bool VM::is_tape_recording(int drv)
+{
+ return drec->is_tape_recording();
+}
+
+int VM::get_tape_position(int drv)
+{
+ return drec->get_tape_position();
+}
+
+const _TCHAR* VM::get_tape_message(int drv)
+{
+ return drec->get_message();
+}
+
+void VM::push_play(int drv)
+{
+ drec->set_ff_rew(0);
+ drec->set_remote(true);
+}
+
+void VM::push_stop(int drv)
+{
+ drec->set_remote(false);
+}
+
+void VM::push_fast_forward(int drv)
+{
+ drec->set_ff_rew(1);
+ drec->set_remote(true);
+}
+
+void VM::push_fast_rewind(int drv)
+{
+ drec->set_ff_rew(-1);
+ drec->set_remote(true);
+}
+
+void VM::push_apss_forward(int drv)
+{
+ drec->do_apss(1);
+}
+
+void VM::push_apss_rewind(int drv)
+{
+ drec->do_apss(-1);
+}
+
+bool VM::is_frame_skippable()
{
#ifdef _X1TWIN
- if(pce->cart_inserted()) {
- return pceevent->now_skip();
+ if(pce->is_cart_inserted()) {
+ return pceevent->is_frame_skippable();
}
#endif
- return event->now_skip();
+ return event->is_frame_skippable();
}
#ifdef _X1TWIN
-void VM::open_cart(int drv, _TCHAR* file_path)
+void VM::open_cart(int drv, const _TCHAR* file_path)
{
if(drv == 0) {
pce->open_cart(file_path);
}
}
-bool VM::cart_inserted(int drv)
+bool VM::is_cart_inserted(int drv)
{
if(drv == 0) {
- return pce->cart_inserted();
+ return pce->is_cart_inserted();
} else {
return false;
}
void VM::update_dipswitch()
{
// bit0 0=High 1=Standard
- // bit2 0=5"2D 1=5"2HD
- io->set_iovalue_single_r(0x1ff0, (config.monitor_type & 1) | ((config.drive_type & 1) << 2));
+ // bit1-3 000=5"2D 001=5"2DD 010=5"2HD
+ io->set_iovalue_single_r(0x1ff0, (config.monitor_type & 1) | ((config.drive_type & 7) << 1));
}
#endif
-#define STATE_VERSION 3
+#define STATE_VERSION 10
+#include "../../statesub.h"
+#include "../../qt/gui/csp_logger.h"
+extern CSP_Logger DLL_PREFIX_I *csp_logger;
+void VM::decl_state(void)
+{
+#if defined(_X1)
+ state_entry = new csp_state_utils(STATE_VERSION, 0, _T("CSP::X1_HEAD"), csp_logger);
+#elif defined(_X1TURBO)
+ state_entry = new csp_state_utils(STATE_VERSION, 0, _T("CSP::X1_TURBO_HEAD"), csp_logger);
+#elif defined(_X1TURBOZ)
+ state_entry = new csp_state_utils(STATE_VERSION, 0, _T("CSP::X1_TURBO_Z_HEAD"), csp_logger);
+#elif defined(_X1TWIN)
+ state_entry = new csp_state_utils(STATE_VERSION, 0, _T("CSP::X1_TWIN_HEAD"), csp_logger);
+#else
+ state_entry = new csp_state_utils(STATE_VERSION, 0, _T("CSP::X1_SERIES_HEAD"), csp_logger);
+#endif
+
+ DECL_STATE_ENTRY_BOOL(pseudo_sub_cpu);
+ DECL_STATE_ENTRY_INT32(sound_type);
+ for(DEVICE* device = first_device; device; device = device->next_device) {
+ device->decl_state();
+ }
+}
void VM::save_state(FILEIO* state_fio)
{
- state_fio->FputUint32(STATE_VERSION);
+ if(state_entry != NULL) state_entry->save_state(state_fio);
for(DEVICE* device = first_device; device; device = device->next_device) {
device->save_state(state_fio);
}
- state_fio->FputBool(pseudo_sub_cpu);
- state_fio->FputInt32(sound_device_type);
}
bool VM::load_state(FILEIO* state_fio)
{
- if(state_fio->FgetUint32() != STATE_VERSION) {
- return false;
+ bool mb = false;
+ if(state_entry != NULL) {
+ mb = state_entry->load_state(state_fio);
}
+ if(!mb) return false;
+
+ int n = 1;
for(DEVICE* device = first_device; device; device = device->next_device) {
if(!device->load_state(state_fio)) {
+ printf("STATE ERROR at device #%d\n", n);
return false;
}
+ n++;
}
- pseudo_sub_cpu = state_fio->FgetBool();
- sound_device_type = state_fio->FgetInt32();
-
#ifdef _X1TURBO_FEATURE
// post process
update_dipswitch();