1 // This is part of Pico Library
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3 // (c) Copyright 2004 Dave, All rights reserved.
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4 // (c) Copyright 2006-2009 notaz, All rights reserved.
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5 // Free for non-commercial use.
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7 // For commercial use, separate licencing terms must be obtained.
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10 #include "pico_int.h"
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13 #include "sound/ym2612.h"
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14 #include "sound/sn76496.h"
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16 extern unsigned int lastSSRamWrite; // used by serial eeprom code
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18 unsigned long m68k_read8_map [0x1000000 >> M68K_MEM_SHIFT];
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19 unsigned long m68k_read16_map [0x1000000 >> M68K_MEM_SHIFT];
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20 unsigned long m68k_write8_map [0x1000000 >> M68K_MEM_SHIFT];
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21 unsigned long m68k_write16_map[0x1000000 >> M68K_MEM_SHIFT];
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23 static void xmap_set(unsigned long *map, int shift, int start_addr, int end_addr,
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24 void *func_or_mh, int is_func)
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26 unsigned long addr = (unsigned long)func_or_mh;
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27 int mask = (1 << shift) - 1;
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30 if ((start_addr & mask) != 0 || (end_addr & mask) != mask) {
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31 elprintf(EL_STATUS|EL_ANOMALY, "xmap_set: tried to map bad range: %06x-%06x",
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32 start_addr, end_addr);
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37 elprintf(EL_STATUS|EL_ANOMALY, "xmap_set: ptr is not aligned: %08lx", addr);
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44 for (i = start_addr >> shift; i <= end_addr >> shift; i++) {
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47 map[i] |= 1 << (sizeof(addr) * 8 - 1);
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51 void z80_map_set(unsigned long *map, int start_addr, int end_addr,
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52 void *func_or_mh, int is_func)
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54 xmap_set(map, Z80_MEM_SHIFT, start_addr, end_addr, func_or_mh, is_func);
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57 void cpu68k_map_set(unsigned long *map, int start_addr, int end_addr,
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58 void *func_or_mh, int is_func)
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60 xmap_set(map, M68K_MEM_SHIFT, start_addr, end_addr, func_or_mh, is_func);
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63 // more specialized/optimized function (does same as above)
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64 void cpu68k_map_all_ram(int start_addr, int end_addr, void *ptr, int is_sub)
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66 unsigned long *r8map, *r16map, *w8map, *w16map;
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67 unsigned long addr = (unsigned long)ptr;
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68 int shift = M68K_MEM_SHIFT;
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72 r8map = m68k_read8_map;
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73 r16map = m68k_read16_map;
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74 w8map = m68k_write8_map;
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75 w16map = m68k_write16_map;
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77 r8map = s68k_read8_map;
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78 r16map = s68k_read16_map;
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79 w8map = s68k_write8_map;
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80 w16map = s68k_write16_map;
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85 for (i = start_addr >> shift; i <= end_addr >> shift; i++)
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86 r8map[i] = r16map[i] = w8map[i] = w16map[i] = addr;
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89 static u32 m68k_unmapped_read8(u32 a)
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91 elprintf(EL_UIO, "m68k unmapped r8 [%06x] @%06x", a, SekPc);
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92 return 0; // assume pulldown, as if MegaCD2 was attached
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95 static u32 m68k_unmapped_read16(u32 a)
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97 elprintf(EL_UIO, "m68k unmapped r16 [%06x] @%06x", a, SekPc);
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101 static void m68k_unmapped_write8(u32 a, u32 d)
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103 elprintf(EL_UIO, "m68k unmapped w8 [%06x] %02x @%06x", a, d & 0xff, SekPc);
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106 static void m68k_unmapped_write16(u32 a, u32 d)
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108 elprintf(EL_UIO, "m68k unmapped w16 [%06x] %04x @%06x", a, d & 0xffff, SekPc);
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111 void m68k_map_unmap(int start_addr, int end_addr)
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113 unsigned long addr;
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114 int shift = M68K_MEM_SHIFT;
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117 addr = (unsigned long)m68k_unmapped_read8;
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118 for (i = start_addr >> shift; i <= end_addr >> shift; i++)
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119 m68k_read8_map[i] = (addr >> 1) | (1 << 31);
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121 addr = (unsigned long)m68k_unmapped_read16;
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122 for (i = start_addr >> shift; i <= end_addr >> shift; i++)
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123 m68k_read16_map[i] = (addr >> 1) | (1 << 31);
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125 addr = (unsigned long)m68k_unmapped_write8;
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126 for (i = start_addr >> shift; i <= end_addr >> shift; i++)
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127 m68k_write8_map[i] = (addr >> 1) | (1 << 31);
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129 addr = (unsigned long)m68k_unmapped_write16;
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130 for (i = start_addr >> shift; i <= end_addr >> shift; i++)
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131 m68k_write16_map[i] = (addr >> 1) | (1 << 31);
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134 MAKE_68K_READ8(m68k_read8, m68k_read8_map)
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135 MAKE_68K_READ16(m68k_read16, m68k_read16_map)
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136 MAKE_68K_READ32(m68k_read32, m68k_read16_map)
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137 MAKE_68K_WRITE8(m68k_write8, m68k_write8_map)
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138 MAKE_68K_WRITE16(m68k_write16, m68k_write16_map)
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139 MAKE_68K_WRITE32(m68k_write32, m68k_write16_map)
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141 // -----------------------------------------------------------------
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143 static u32 ym2612_read_local_68k(void);
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144 static int ym2612_write_local(u32 a, u32 d, int is_from_z80);
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145 static void z80_mem_setup(void);
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148 #ifdef EMU_CORE_DEBUG
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149 u32 lastread_a, lastread_d[16]={0,}, lastwrite_cyc_d[16]={0,}, lastwrite_mus_d[16]={0,};
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150 int lrp_cyc=0, lrp_mus=0, lwp_cyc=0, lwp_mus=0;
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151 extern unsigned int ppop;
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155 void log_io(unsigned int addr, int bits, int rw);
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156 #elif defined(_MSC_VER)
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159 #define log_io(...)
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162 #if defined(EMU_C68K)
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163 static __inline int PicoMemBase(u32 pc)
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167 if (pc<Pico.romsize+4)
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169 membase=(int)Pico.rom; // Program Counter in Rom
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171 else if ((pc&0xe00000)==0xe00000)
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173 membase=(int)Pico.ram-(pc&0xff0000); // Program Counter in Ram
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177 // Error - Program Counter is invalid
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178 membase=(int)Pico.rom;
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186 PICO_INTERNAL u32 PicoCheckPc(u32 pc)
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189 #if defined(EMU_C68K)
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190 pc-=PicoCpuCM68k.membase; // Get real pc
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195 elprintf(EL_STATUS|EL_ANOMALY, "%i:%03i: game crash detected @ %06x\n",
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196 Pico.m.frame_count, Pico.m.scanline, SekPc);
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197 return (int)Pico.rom + Pico.romsize; // common crash condition, may happen with bad ROMs
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200 PicoCpuCM68k.membase=PicoMemBase(pc&0x00ffffff);
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201 PicoCpuCM68k.membase-=pc&0xff000000;
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203 ret = PicoCpuCM68k.membase+pc;
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209 PICO_INTERNAL void PicoInitPc(u32 pc)
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214 // -----------------------------------------------------------------
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217 static int PadRead(int i)
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219 int pad,value,data_reg;
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220 pad=~PicoPadInt[i]; // Get inverse of pad MXYZ SACB RLDU
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221 data_reg=Pico.ioports[i+1];
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223 // orr the bits, which are set as output
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224 value = data_reg&(Pico.ioports[i+4]|0x80);
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226 if (PicoOpt & POPT_6BTN_PAD)
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228 int phase = Pico.m.padTHPhase[i];
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230 if(phase == 2 && !(data_reg&0x40)) { // TH
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231 value|=(pad&0xc0)>>2; // ?0SA 0000
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233 } else if(phase == 3) {
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235 value|=(pad&0x30)|((pad>>8)&0xf); // ?1CB MXYZ
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237 value|=((pad&0xc0)>>2)|0x0f; // ?0SA 1111
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242 if(data_reg&0x40) // TH
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243 value|=(pad&0x3f); // ?1CB RLDU
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244 else value|=((pad&0xc0)>>2)|(pad&3); // ?0SA 00DU
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246 return value; // will mirror later
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249 static u32 io_ports_read(u32 a)
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254 case 0: d = Pico.m.hardware; break; // Hardware value (Version register)
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255 case 1: d = PadRead(0); break;
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256 case 2: d = PadRead(1); break;
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257 default: d = Pico.ioports[a]; break; // IO ports can be used as RAM
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262 static void io_ports_write(u32 a, u32 d)
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266 // 6 button gamepad: if TH went from 0 to 1, gamepad changes state
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267 if (1 <= a && a <= 2 && (PicoOpt & POPT_6BTN_PAD))
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269 Pico.m.padDelay[a - 1] = 0;
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270 if (!(Pico.ioports[a] & 0x40) && (d & 0x40))
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271 Pico.m.padTHPhase[a - 1]++;
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274 // cartain IO ports can be used as RAM
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275 Pico.ioports[a] = d;
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278 static void ctl_write_z80busreq(u32 d)
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281 elprintf(EL_BUSREQ, "set_zrun: %i->%i [%i] @%06x", Pico.m.z80Run, d, SekCyclesDone(), SekPc);
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282 if (d ^ Pico.m.z80Run)
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286 z80_cycle_cnt = cycles_68k_to_z80(SekCyclesDone());
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290 z80stopCycle = SekCyclesDone();
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291 if ((PicoOpt&POPT_EN_Z80) && !Pico.m.z80_reset)
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292 PicoSyncZ80(z80stopCycle);
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298 static void ctl_write_z80reset(u32 d)
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301 elprintf(EL_BUSREQ, "set_zreset: %i->%i [%i] @%06x", Pico.m.z80_reset, d, SekCyclesDone(), SekPc);
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302 if (d ^ Pico.m.z80_reset)
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306 if ((PicoOpt&POPT_EN_Z80) && Pico.m.z80Run)
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307 PicoSyncZ80(SekCyclesDone());
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313 z80_cycle_cnt = cycles_68k_to_z80(SekCyclesDone());
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316 Pico.m.z80_reset = d;
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321 // for nonstandard reads
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322 // TODO: mv to carthw
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323 static u32 OtherRead16End(u32 a, int realsize)
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329 if (a == 0xa130ec) { d = 0x4d41; goto end; } // MA
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330 else if (a == 0xa130ee) { d = 0x5253; goto end; } // RS
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331 else if (a == 0xa15100) { d = 0x0080; goto end; }
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335 // for games with simple protection devices, discovered by Haze
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336 // some dumb detection is used, but that should be enough to make things work
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337 if ((a>>22) == 1 && Pico.romsize >= 512*1024) {
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338 if (*(int *)(Pico.rom+0x123e4) == 0x00550c39 && *(int *)(Pico.rom+0x123e8) == 0x00000040) { // Super Bubble Bobble (Unl) [!]
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339 if (a == 0x400000) { d=0x55<<8; goto end; }
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340 else if (a == 0x400002) { d=0x0f<<8; goto end; }
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342 else if (*(int *)(Pico.rom+0x008c4) == 0x66240055 && *(int *)(Pico.rom+0x008c8) == 0x00404df9) { // Smart Mouse (Unl)
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343 if (a == 0x400000) { d=0x55<<8; goto end; }
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344 else if (a == 0x400002) { d=0x0f<<8; goto end; }
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345 else if (a == 0x400004) { d=0xaa<<8; goto end; }
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346 else if (a == 0x400006) { d=0xf0<<8; goto end; }
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348 else if (*(int *)(Pico.rom+0x00404) == 0x00a90600 && *(int *)(Pico.rom+0x00408) == 0x6708b013) { // King of Fighters '98, The (Unl) [!]
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349 if (a == 0x480000 || a == 0x4800e0 || a == 0x4824a0 || a == 0x488880) { d=0xaa<<8; goto end; }
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350 else if (a == 0x4a8820) { d=0x0a<<8; goto end; }
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351 // there is also a read @ 0x4F8820 which needs 0, but that is returned in default case
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353 else if (*(int *)(Pico.rom+0x01b24) == 0x004013f9 && *(int *)(Pico.rom+0x01b28) == 0x00ff0000) { // Mahjong Lover (Unl) [!]
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354 if (a == 0x400000) { d=0x90<<8; goto end; }
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355 else if (a == 0x401000) { d=0xd3<<8; goto end; } // this one doesn't seem to be needed, the code does 2 comparisons and only then
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356 // checks the result, which is of the above one. Left it just in case.
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358 else if (*(int *)(Pico.rom+0x05254) == 0x0c3962d0 && *(int *)(Pico.rom+0x05258) == 0x00400055) { // Elf Wor (Unl)
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359 if (a == 0x400000) { d=0x55<<8; goto end; }
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360 else if (a == 0x400004) { d=0xc9<<8; goto end; } // this check is done if the above one fails
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361 else if (a == 0x400002) { d=0x0f<<8; goto end; }
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362 else if (a == 0x400006) { d=0x18<<8; goto end; } // similar to above
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364 // our default behaviour is to return whatever was last written a 0x400000-0x7fffff range (used by Squirrel King (R) [!])
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365 // Lion King II, The (Unl) [!] writes @ 400000 and wants to get that val @ 400002 and wites another val
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366 // @ 400004 which is expected @ 400006, so we really remember 2 values here
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367 d = Pico.m.prot_bytes[(a>>2)&1]<<8;
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369 else if (a == 0xa13000 && Pico.romsize >= 1024*1024) {
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370 if (*(int *)(Pico.rom+0xc8af0) == 0x30133013 && *(int *)(Pico.rom+0xc8af4) == 0x000f0240) { // Rockman X3 (Unl) [!]
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373 else if (*(int *)(Pico.rom+0x28888) == 0x07fc0000 && *(int *)(Pico.rom+0x2888c) == 0x4eb94e75) { // Bug's Life, A (Unl) [!]
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374 d=0x28; goto end; // does the check from RAM
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376 else if (*(int *)(Pico.rom+0xc8778) == 0x30133013 && *(int *)(Pico.rom+0xc877c) == 0x000f0240) { // Super Mario Bros. (Unl) [!]
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377 d=0x0c; goto end; // seems to be the same code as in Rockman X3 (Unl) [!]
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379 else if (*(int *)(Pico.rom+0xf20ec) == 0x30143013 && *(int *)(Pico.rom+0xf20f0) == 0x000f0200) { // Super Mario 2 1998 (Unl) [!]
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383 else if (a == 0xa13002) { // Pocket Monsters (Unl)
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386 else if (a == 0xa1303E) { // Pocket Monsters (Unl)
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389 else if (a == 0x30fe02) {
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390 // Virtua Racing - just for fun
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391 // this seems to be some flag that SVP is ready or something similar
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396 elprintf(EL_UIO, "strange r%i: [%06x] %04x @%06x", realsize, a&0xffffff, d, SekPc);
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400 static void OtherWrite8End(u32 a,u32 d,int realsize)
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402 #ifdef _ASM_MEMORY_C
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403 // special ROM hardware (currently only banking and sram reg supported)
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404 if((a&0xfffff1) == 0xA130F1) {
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405 PicoWriteRomHW_SSF2(a, d); // SSF2 or SRAM
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409 // sram access register
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410 if(a == 0xA130F1) {
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411 elprintf(EL_SRAMIO, "sram reg=%02x", d);
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412 Pico.m.sram_status &= ~(SRS_MAPPED|SRS_READONLY);
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413 Pico.m.sram_status |= (u8)(d&3);
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417 elprintf(EL_UIO, "strange w%i: %06x, %08x @%06x", realsize, a&0xffffff, d, SekPc);
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419 // for games with simple protection devices, discovered by Haze
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421 Pico.m.prot_bytes[(a>>2)&1] = (u8)d;
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424 // -----------------------------------------------------------------
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426 // cart (save) RAM area (usually 0x200000 - ...)
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427 static u32 PicoRead8_sram(u32 a)
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429 int srs = Pico.m.sram_status;
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431 if (SRam.end >= a && a >= SRam.start && (srs & (SRS_MAPPED|SRS_EEPROM)))
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433 if (srs & SRS_EEPROM)
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436 d = *(u8 *)(SRam.data - SRam.start + a);
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437 elprintf(EL_SRAMIO, "sram r8 [%06x] %02x @ %06x", a, d, SekPc);
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441 if (a < Pico.romsize)
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442 return Pico.rom[a ^ 1];
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444 return m68k_unmapped_read8(a);
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447 static u32 PicoRead16_sram(u32 a)
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449 int srs = Pico.m.sram_status;
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451 if (SRam.end >= a && a >= SRam.start && (srs & (SRS_MAPPED|SRS_EEPROM)))
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453 if (srs & SRS_EEPROM) {
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457 u8 *pm = (u8 *)(SRam.data - SRam.start + a);
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461 elprintf(EL_SRAMIO, "sram r16 [%06x] %04x @ %06x", a, d, SekPc);
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465 if (a < Pico.romsize)
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466 return *(u16 *)(Pico.rom + a);
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468 return m68k_unmapped_read16(a);
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471 static void PicoWrite8_sram(u32 a, u32 d)
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473 unsigned int srs = Pico.m.sram_status;
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474 elprintf(EL_SRAMIO, "sram wX [%06x] %02x @ %06x", a, d & 0xffff, SekPc);
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475 if (srs & SRS_EEPROM) // EEPROM write
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477 // this diff must be at most 16 for NBA Jam to work
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478 if (SekCyclesDoneT() - lastSSRamWrite < 16) {
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479 // just update pending state
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480 elprintf(EL_EEPROM, "eeprom: skip because cycles=%i",
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481 SekCyclesDoneT() - lastSSRamWrite);
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482 EEPROM_upd_pending(a, d);
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484 EEPROM_write(srs >> 6); // execute pending
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485 EEPROM_upd_pending(a, d);
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486 if ((srs ^ Pico.m.sram_status) & 0xc0) // update time only if SDA/SCL changed
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487 lastSSRamWrite = SekCyclesDoneT();
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490 else if (!(srs & SRS_READONLY)) {
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491 u8 *pm=(u8 *)(SRam.data - SRam.start + a);
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492 if (*pm != (u8)d) {
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499 static void PicoWrite16_sram(u32 a, u32 d)
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501 // XXX: hardware could easily use MSB too..
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502 PicoWrite8_sram(a + 1, d);
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505 // z80 area (0xa00000 - 0xa0ffff)
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506 // TODO: verify mirrors VDP and bank reg (bank area mirroring verified)
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507 static u32 PicoRead8_z80(u32 a)
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510 if ((Pico.m.z80Run & 1) || Pico.m.z80_reset) {
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511 elprintf(EL_ANOMALY, "68k z80 read with no bus! [%06x] @ %06x", a, SekPc);
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512 // open bus. Pulled down if MegaCD2 is attached.
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516 if ((a & 0x4000) == 0x0000)
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517 d = Pico.zram[a & 0x1fff];
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518 else if ((a & 0x6000) == 0x4000) // 0x4000-0x5fff
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519 d = ym2612_read_local_68k();
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521 elprintf(EL_UIO|EL_ANOMALY, "68k bad read [%06x] @%06x", a, SekPc);
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525 static u32 PicoRead16_z80(u32 a)
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527 u32 d = PicoRead8_z80(a);
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528 return d | (d << 8);
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531 static void PicoWrite8_z80(u32 a, u32 d)
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533 if ((Pico.m.z80Run & 1) || Pico.m.z80_reset) {
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534 // verified on real hw
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535 elprintf(EL_ANOMALY, "68k z80 write with no bus or reset! [%06x] %02x @ %06x", a, d&0xff, SekPc);
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539 if ((a & 0x4000) == 0x0000) { // z80 RAM
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540 SekCyclesBurn(2); // hack
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541 Pico.zram[a & 0x1fff] = (u8)d;
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544 if ((a & 0x6000) == 0x4000) { // FM Sound
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545 if (PicoOpt & POPT_EN_FM)
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546 emustatus |= ym2612_write_local(a&3, d&0xff, 0)&1;
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549 // TODO: probably other VDP access too? Maybe more mirrors?
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550 if ((a & 0x7ff9) == 0x7f11) { // PSG Sound
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551 if (PicoOpt & POPT_EN_PSG)
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555 #if !defined(_ASM_MEMORY_C) || defined(_ASM_MEMORY_C_AMIPS)
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556 if ((a & 0x7f00) == 0x6000) // Z80 BANK register
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558 Pico.m.z80_bank68k >>= 1;
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559 Pico.m.z80_bank68k |= d << 8;
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560 Pico.m.z80_bank68k &= 0x1ff; // 9 bits and filled in the new top one
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561 elprintf(EL_Z80BNK, "z80 bank=%06x", Pico.m.z80_bank68k << 15);
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565 elprintf(EL_UIO|EL_ANOMALY, "68k bad write [%06x] %02x @ %06x", a, d&0xff, SekPc);
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568 static void PicoWrite16_z80(u32 a, u32 d)
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570 // for RAM, only most significant byte is sent
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571 // TODO: verify remaining accesses
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572 PicoWrite8_z80(a, d >> 8);
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575 // IO/control area (0xa10000 - 0xa1ffff)
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576 u32 PicoRead8_io(u32 a)
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580 if ((a & 0xffe0) == 0x0000) { // I/O ports
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581 d = io_ports_read(a);
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585 // faking open bus (MegaCD pulldowns don't work here curiously)
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586 d = Pico.m.rotate++;
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589 // bit8 seems to be readable in this range
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590 if ((a & 0xfc01) == 0x1000)
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593 if ((a & 0xff01) == 0x1100) { // z80 busreq (verified)
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594 d |= (Pico.m.z80Run | Pico.m.z80_reset) & 1;
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595 elprintf(EL_BUSREQ, "get_zrun: %02x [%i] @%06x", d, SekCyclesDone(), SekPc);
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599 d = m68k_unmapped_read8(a);
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604 u32 PicoRead16_io(u32 a)
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608 if ((a & 0xffe0) == 0x0000) { // I/O ports
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609 d = io_ports_read(a);
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614 d = (Pico.m.rotate += 0x41);
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615 d ^= (d << 5) ^ (d << 8);
\r
617 // bit8 seems to be readable in this range
\r
618 if ((a & 0xfc00) == 0x1000)
\r
621 if ((a & 0xff00) == 0x1100) { // z80 busreq
\r
622 d |= ((Pico.m.z80Run | Pico.m.z80_reset) & 1) << 8;
\r
623 elprintf(EL_BUSREQ, "get_zrun: %04x [%i] @%06x", d, SekCyclesDone(), SekPc);
\r
627 d = m68k_unmapped_read16(a);
\r
632 void PicoWrite8_io(u32 a, u32 d)
\r
634 if ((a & 0xffe1) == 0x0001) { // I/O ports (verified: only LSB!)
\r
635 io_ports_write(a, d);
\r
638 if ((a & 0xff01) == 0x1100) { // z80 busreq
\r
639 ctl_write_z80busreq(d);
\r
642 if ((a & 0xff01) == 0x1200) { // z80 reset
\r
643 ctl_write_z80reset(d);
\r
646 if (a == 0xa130f1) { // sram access register
\r
647 elprintf(EL_SRAMIO, "sram reg=%02x", d);
\r
648 Pico.m.sram_status &= ~(SRS_MAPPED|SRS_READONLY);
\r
649 Pico.m.sram_status |= (u8)(d & 3);
\r
652 m68k_unmapped_write8(a, d);
\r
655 void PicoWrite16_io(u32 a, u32 d)
\r
657 if ((a & 0xffe0) == 0x0000) { // I/O ports (verified: only LSB!)
\r
658 io_ports_write(a, d);
\r
661 if ((a & 0xff00) == 0x1100) { // z80 busreq
\r
662 ctl_write_z80busreq(d >> 8);
\r
665 if ((a & 0xff00) == 0x1200) { // z80 reset
\r
666 ctl_write_z80reset(d >> 8);
\r
669 if (a == 0xa130f0) { // sram access register
\r
670 elprintf(EL_SRAMIO, "sram reg=%02x", d);
\r
671 Pico.m.sram_status &= ~(SRS_MAPPED|SRS_READONLY);
\r
672 Pico.m.sram_status |= (u8)(d & 3);
\r
675 m68k_unmapped_write16(a, d);
\r
678 // VDP area (0xc00000 - 0xdfffff)
\r
679 // TODO: verify if lower byte goes to PSG on word writes
\r
680 static u32 PicoRead8_vdp(u32 a)
\r
682 if ((a & 0x00e0) == 0x0000)
\r
683 return PicoVideoRead8(a);
\r
685 elprintf(EL_UIO|EL_ANOMALY, "68k bad read [%06x] @%06x", a, SekPc);
\r
689 static u32 PicoRead16_vdp(u32 a)
\r
691 if ((a & 0x00e0) == 0x0000)
\r
692 return PicoVideoRead(a);
\r
694 elprintf(EL_UIO|EL_ANOMALY, "68k bad read [%06x] @%06x", a, SekPc);
\r
698 static void PicoWrite8_vdp(u32 a, u32 d)
\r
700 if ((a & 0x00f9) == 0x0011) { // PSG Sound
\r
701 if (PicoOpt & POPT_EN_PSG)
\r
705 if ((a & 0x00e0) == 0x0000) {
\r
707 PicoVideoWrite(a, d | (d << 8));
\r
711 elprintf(EL_UIO|EL_ANOMALY, "68k bad write [%06x] %02x @%06x", a, d & 0xff, SekPc);
\r
714 static void PicoWrite16_vdp(u32 a, u32 d)
\r
716 if ((a & 0x00f9) == 0x0010) { // PSG Sound
\r
717 if (PicoOpt & POPT_EN_PSG)
\r
721 if ((a & 0x00e0) == 0x0000) {
\r
722 PicoVideoWrite(a, d);
\r
726 elprintf(EL_UIO|EL_ANOMALY, "68k bad write [%06x] %04x @%06x", a, d & 0xffff, SekPc);
\r
729 // -----------------------------------------------------------------
\r
732 static void OtherWrite16End(u32 a,u32 d,int realsize)
\r
734 PicoWrite8Hook(a, d>>8, realsize);
\r
735 PicoWrite8Hook(a+1,d&0xff, realsize);
\r
738 u32 (*PicoRead16Hook) (u32 a, int realsize) = OtherRead16End;
\r
739 void (*PicoWrite8Hook) (u32 a, u32 d, int realsize) = OtherWrite8End;
\r
740 void (*PicoWrite16Hook)(u32 a, u32 d, int realsize) = OtherWrite16End;
\r
742 PICO_INTERNAL void PicoMemResetHooks(void)
\r
744 // default unmapped/cart specific handlers
\r
745 PicoRead16Hook = OtherRead16End;
\r
746 PicoWrite8Hook = OtherWrite8End;
\r
747 PicoWrite16Hook = OtherWrite16End;
\r
751 static void m68k_mem_setup(void);
\r
754 PICO_INTERNAL void PicoMemSetup(void)
\r
758 // setup the memory map
\r
759 cpu68k_map_set(m68k_read8_map, 0x000000, 0xffffff, m68k_unmapped_read8, 1);
\r
760 cpu68k_map_set(m68k_read16_map, 0x000000, 0xffffff, m68k_unmapped_read16, 1);
\r
761 cpu68k_map_set(m68k_write8_map, 0x000000, 0xffffff, m68k_unmapped_write8, 1);
\r
762 cpu68k_map_set(m68k_write16_map, 0x000000, 0xffffff, m68k_unmapped_write16, 1);
\r
765 // align to bank size. We know ROM loader allocated enough for this
\r
766 mask = (1 << M68K_MEM_SHIFT) - 1;
\r
767 rs = (Pico.romsize + mask) & ~mask;
\r
768 cpu68k_map_set(m68k_read8_map, 0x000000, rs - 1, Pico.rom, 0);
\r
769 cpu68k_map_set(m68k_read16_map, 0x000000, rs - 1, Pico.rom, 0);
\r
771 // Common case of on-cart (save) RAM, usually at 0x200000-...
\r
772 rs = SRam.end - SRam.start;
\r
773 if (rs > 0 && SRam.data != NULL) {
\r
774 rs = (rs + mask) & ~mask;
\r
775 if (SRam.start + rs >= 0x1000000)
\r
776 rs = 0x1000000 - SRam.start;
\r
777 cpu68k_map_set(m68k_read8_map, SRam.start, SRam.start + rs - 1, PicoRead8_sram, 1);
\r
778 cpu68k_map_set(m68k_read16_map, SRam.start, SRam.start + rs - 1, PicoRead16_sram, 1);
\r
779 cpu68k_map_set(m68k_write8_map, SRam.start, SRam.start + rs - 1, PicoWrite8_sram, 1);
\r
780 cpu68k_map_set(m68k_write16_map, SRam.start, SRam.start + rs - 1, PicoWrite16_sram, 1);
\r
784 cpu68k_map_set(m68k_read8_map, 0xa00000, 0xa0ffff, PicoRead8_z80, 1);
\r
785 cpu68k_map_set(m68k_read16_map, 0xa00000, 0xa0ffff, PicoRead16_z80, 1);
\r
786 cpu68k_map_set(m68k_write8_map, 0xa00000, 0xa0ffff, PicoWrite8_z80, 1);
\r
787 cpu68k_map_set(m68k_write16_map, 0xa00000, 0xa0ffff, PicoWrite16_z80, 1);
\r
789 // IO/control region
\r
790 cpu68k_map_set(m68k_read8_map, 0xa10000, 0xa1ffff, PicoRead8_io, 1);
\r
791 cpu68k_map_set(m68k_read16_map, 0xa10000, 0xa1ffff, PicoRead16_io, 1);
\r
792 cpu68k_map_set(m68k_write8_map, 0xa10000, 0xa1ffff, PicoWrite8_io, 1);
\r
793 cpu68k_map_set(m68k_write16_map, 0xa10000, 0xa1ffff, PicoWrite16_io, 1);
\r
796 for (a = 0xc00000; a < 0xe00000; a += 0x010000) {
\r
797 if ((a & 0xe700e0) != 0xc00000)
\r
799 cpu68k_map_set(m68k_read8_map, a, a + 0xffff, PicoRead8_vdp, 1);
\r
800 cpu68k_map_set(m68k_read16_map, a, a + 0xffff, PicoRead16_vdp, 1);
\r
801 cpu68k_map_set(m68k_write8_map, a, a + 0xffff, PicoWrite8_vdp, 1);
\r
802 cpu68k_map_set(m68k_write16_map, a, a + 0xffff, PicoWrite16_vdp, 1);
\r
805 // RAM and it's mirrors
\r
806 for (a = 0xe00000; a < 0x1000000; a += 0x010000) {
\r
807 cpu68k_map_set(m68k_read8_map, a, a + 0xffff, Pico.ram, 0);
\r
808 cpu68k_map_set(m68k_read16_map, a, a + 0xffff, Pico.ram, 0);
\r
809 cpu68k_map_set(m68k_write8_map, a, a + 0xffff, Pico.ram, 0);
\r
810 cpu68k_map_set(m68k_write16_map, a, a + 0xffff, Pico.ram, 0);
\r
813 // Setup memory callbacks:
\r
815 PicoCpuCM68k.checkpc = PicoCheckPc;
\r
816 PicoCpuCM68k.fetch8 = PicoCpuCM68k.read8 = m68k_read8;
\r
817 PicoCpuCM68k.fetch16 = PicoCpuCM68k.read16 = m68k_read16;
\r
818 PicoCpuCM68k.fetch32 = PicoCpuCM68k.read32 = m68k_read32;
\r
819 PicoCpuCM68k.write8 = m68k_write8;
\r
820 PicoCpuCM68k.write16 = m68k_write16;
\r
821 PicoCpuCM68k.write32 = m68k_write32;
\r
824 PicoCpuFM68k.read_byte = m68k_read8;
\r
825 PicoCpuFM68k.read_word = m68k_read16;
\r
826 PicoCpuFM68k.read_long = m68k_read32;
\r
827 PicoCpuFM68k.write_byte = m68k_write8;
\r
828 PicoCpuFM68k.write_word = m68k_write16;
\r
829 PicoCpuFM68k.write_long = m68k_write32;
\r
831 // setup FAME fetchmap
\r
834 // by default, point everything to first 64k of ROM
\r
835 for (i = 0; i < M68K_FETCHBANK1; i++)
\r
836 PicoCpuFM68k.Fetch[i] = (unsigned int)Pico.rom - (i<<(24-FAMEC_FETCHBITS));
\r
838 for (i = 0; i < M68K_FETCHBANK1 && (i<<(24-FAMEC_FETCHBITS)) < Pico.romsize; i++)
\r
839 PicoCpuFM68k.Fetch[i] = (unsigned int)Pico.rom;
\r
841 for (i = M68K_FETCHBANK1*14/16; i < M68K_FETCHBANK1; i++)
\r
842 PicoCpuFM68k.Fetch[i] = (unsigned int)Pico.ram - (i<<(24-FAMEC_FETCHBITS));
\r
852 /* some nasty things below :( */
\r
854 unsigned int (*pm68k_read_memory_8) (unsigned int address) = NULL;
\r
855 unsigned int (*pm68k_read_memory_16)(unsigned int address) = NULL;
\r
856 unsigned int (*pm68k_read_memory_32)(unsigned int address) = NULL;
\r
857 void (*pm68k_write_memory_8) (unsigned int address, unsigned char value) = NULL;
\r
858 void (*pm68k_write_memory_16)(unsigned int address, unsigned short value) = NULL;
\r
859 void (*pm68k_write_memory_32)(unsigned int address, unsigned int value) = NULL;
\r
860 unsigned int (*pm68k_read_memory_pcr_8) (unsigned int address) = NULL;
\r
861 unsigned int (*pm68k_read_memory_pcr_16)(unsigned int address) = NULL;
\r
862 unsigned int (*pm68k_read_memory_pcr_32)(unsigned int address) = NULL;
\r
864 // these are here for core debugging mode
\r
865 static unsigned int m68k_read_8 (unsigned int a, int do_fake)
\r
868 if(a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k) return *(u8 *)(Pico.rom+(a^1)); // Rom
\r
869 #ifdef EMU_CORE_DEBUG
\r
870 if(do_fake&&((ppop&0x3f)==0x3a||(ppop&0x3f)==0x3b)) return lastread_d[lrp_mus++&15];
\r
872 return pm68k_read_memory_pcr_8(a);
\r
874 static unsigned int m68k_read_16(unsigned int a, int do_fake)
\r
877 if(a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k) return *(u16 *)(Pico.rom+(a&~1)); // Rom
\r
878 #ifdef EMU_CORE_DEBUG
\r
879 if(do_fake&&((ppop&0x3f)==0x3a||(ppop&0x3f)==0x3b)) return lastread_d[lrp_mus++&15];
\r
881 return pm68k_read_memory_pcr_16(a);
\r
883 static unsigned int m68k_read_32(unsigned int a, int do_fake)
\r
886 if(a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k) { u16 *pm=(u16 *)(Pico.rom+(a&~1)); return (pm[0]<<16)|pm[1]; }
\r
887 #ifdef EMU_CORE_DEBUG
\r
888 if(do_fake&&((ppop&0x3f)==0x3a||(ppop&0x3f)==0x3b)) return lastread_d[lrp_mus++&15];
\r
890 return pm68k_read_memory_pcr_32(a);
\r
893 unsigned int m68k_read_pcrelative_8 (unsigned int a) { return m68k_read_8 (a, 1); }
\r
894 unsigned int m68k_read_pcrelative_16(unsigned int a) { return m68k_read_16(a, 1); }
\r
895 unsigned int m68k_read_pcrelative_32(unsigned int a) { return m68k_read_32(a, 1); }
\r
896 unsigned int m68k_read_immediate_16(unsigned int a) { return m68k_read_16(a, 0); }
\r
897 unsigned int m68k_read_immediate_32(unsigned int a) { return m68k_read_32(a, 0); }
\r
898 unsigned int m68k_read_disassembler_8 (unsigned int a) { return m68k_read_8 (a, 0); }
\r
899 unsigned int m68k_read_disassembler_16(unsigned int a) { return m68k_read_16(a, 0); }
\r
900 unsigned int m68k_read_disassembler_32(unsigned int a) { return m68k_read_32(a, 0); }
\r
902 static unsigned int m68k_read_memory_pcr_8(unsigned int a)
\r
904 if((a&0xe00000)==0xe00000) return *(u8 *)(Pico.ram+((a^1)&0xffff)); // Ram
\r
908 static unsigned int m68k_read_memory_pcr_16(unsigned int a)
\r
910 if((a&0xe00000)==0xe00000) return *(u16 *)(Pico.ram+(a&0xfffe)); // Ram
\r
914 static unsigned int m68k_read_memory_pcr_32(unsigned int a)
\r
916 if((a&0xe00000)==0xe00000) { u16 *pm=(u16 *)(Pico.ram+(a&0xfffe)); return (pm[0]<<16)|pm[1]; } // Ram
\r
920 #ifdef EMU_CORE_DEBUG
\r
922 unsigned int m68k_read_memory_8(unsigned int a)
\r
925 if (a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k)
\r
926 d = *(u8 *) (Pico.rom+(a^1));
\r
927 else d = (u8) lastread_d[lrp_mus++&15];
\r
928 elprintf(EL_IO, "r8_mu : %06x, %02x @%06x", a&0xffffff, d, SekPc);
\r
931 unsigned int m68k_read_memory_16(unsigned int a)
\r
934 if (a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k)
\r
935 d = *(u16 *)(Pico.rom+(a&~1));
\r
936 else d = (u16) lastread_d[lrp_mus++&15];
\r
937 elprintf(EL_IO, "r16_mu: %06x, %04x @%06x", a&0xffffff, d, SekPc);
\r
940 unsigned int m68k_read_memory_32(unsigned int a)
\r
943 if (a<Pico.romsize && m68ki_cpu_p==&PicoCpuMM68k)
\r
944 { u16 *pm=(u16 *)(Pico.rom+(a&~1));d=(pm[0]<<16)|pm[1]; }
\r
945 else if (a <= 0x78) d = m68k_read_32(a, 0);
\r
946 else d = lastread_d[lrp_mus++&15];
\r
947 elprintf(EL_IO, "r32_mu: %06x, %08x @%06x", a&0xffffff, d, SekPc);
\r
951 // ignore writes, Cyclone already done that
\r
952 void m68k_write_memory_8(unsigned int address, unsigned int value) { lastwrite_mus_d[lwp_mus++&15] = value; }
\r
953 void m68k_write_memory_16(unsigned int address, unsigned int value) { lastwrite_mus_d[lwp_mus++&15] = value; }
\r
954 void m68k_write_memory_32(unsigned int address, unsigned int value) { lastwrite_mus_d[lwp_mus++&15] = value; }
\r
956 #else // if !EMU_CORE_DEBUG
\r
958 /* it appears that Musashi doesn't always mask the unused bits */
\r
959 unsigned int m68k_read_memory_8 (unsigned int address) { return pm68k_read_memory_8 (address) & 0xff; }
\r
960 unsigned int m68k_read_memory_16(unsigned int address) { return pm68k_read_memory_16(address) & 0xffff; }
\r
961 unsigned int m68k_read_memory_32(unsigned int address) { return pm68k_read_memory_32(address); }
\r
962 void m68k_write_memory_8 (unsigned int address, unsigned int value) { pm68k_write_memory_8 (address, (u8)value); }
\r
963 void m68k_write_memory_16(unsigned int address, unsigned int value) { pm68k_write_memory_16(address,(u16)value); }
\r
964 void m68k_write_memory_32(unsigned int address, unsigned int value) { pm68k_write_memory_32(address, value); }
\r
965 #endif // !EMU_CORE_DEBUG
\r
967 static void m68k_mem_setup(void)
\r
969 pm68k_read_memory_8 = m68k_read8;
\r
970 pm68k_read_memory_16 = m68k_read16;
\r
971 pm68k_read_memory_32 = m68k_read32;
\r
972 pm68k_write_memory_8 = m68k_write8;
\r
973 pm68k_write_memory_16 = m68k_write16;
\r
974 pm68k_write_memory_32 = m68k_write32;
\r
975 pm68k_read_memory_pcr_8 = m68k_read_memory_pcr_8;
\r
976 pm68k_read_memory_pcr_16 = m68k_read_memory_pcr_16;
\r
977 pm68k_read_memory_pcr_32 = m68k_read_memory_pcr_32;
\r
982 // -----------------------------------------------------------------
\r
984 static int get_scanline(int is_from_z80)
\r
987 int cycles = z80_cyclesDone();
\r
988 while (cycles - z80_scanline_cycles >= 228)
\r
989 z80_scanline++, z80_scanline_cycles += 228;
\r
990 return z80_scanline;
\r
993 return Pico.m.scanline;
\r
996 /* probably should not be in this file, but it's near related code here */
\r
997 void ym2612_sync_timers(int z80_cycles, int mode_old, int mode_new)
\r
999 int xcycles = z80_cycles << 8;
\r
1001 /* check for overflows */
\r
1002 if ((mode_old & 4) && xcycles > timer_a_next_oflow)
\r
1003 ym2612.OPN.ST.status |= 1;
\r
1005 if ((mode_old & 8) && xcycles > timer_b_next_oflow)
\r
1006 ym2612.OPN.ST.status |= 2;
\r
1008 /* update timer a */
\r
1010 while (xcycles > timer_a_next_oflow)
\r
1011 timer_a_next_oflow += timer_a_step;
\r
1013 if ((mode_old ^ mode_new) & 1) // turning on/off
\r
1016 timer_a_next_oflow = TIMER_NO_OFLOW;
\r
1018 timer_a_next_oflow = xcycles + timer_a_step;
\r
1021 elprintf(EL_YMTIMER, "timer a upd to %i @ %i", timer_a_next_oflow>>8, z80_cycles);
\r
1023 /* update timer b */
\r
1025 while (xcycles > timer_b_next_oflow)
\r
1026 timer_b_next_oflow += timer_b_step;
\r
1028 if ((mode_old ^ mode_new) & 2)
\r
1031 timer_b_next_oflow = TIMER_NO_OFLOW;
\r
1033 timer_b_next_oflow = xcycles + timer_b_step;
\r
1036 elprintf(EL_YMTIMER, "timer b upd to %i @ %i", timer_b_next_oflow>>8, z80_cycles);
\r
1039 // ym2612 DAC and timer I/O handlers for z80
\r
1040 static int ym2612_write_local(u32 a, u32 d, int is_from_z80)
\r
1045 if (a == 1 && ym2612.OPN.ST.address == 0x2a) /* DAC data */
\r
1047 int scanline = get_scanline(is_from_z80);
\r
1048 //elprintf(EL_STATUS, "%03i -> %03i dac w %08x z80 %i", PsndDacLine, scanline, d, is_from_z80);
\r
1049 ym2612.dacout = ((int)d - 0x80) << 6;
\r
1050 if (PsndOut && ym2612.dacen && scanline >= PsndDacLine)
\r
1051 PsndDoDAC(scanline);
\r
1057 case 0: /* address port 0 */
\r
1058 ym2612.OPN.ST.address = d;
\r
1059 ym2612.addr_A1 = 0;
\r
1061 if (PicoOpt & POPT_EXT_FM) YM2612Write_940(a, d, -1);
\r
1065 case 1: /* data port 0 */
\r
1066 if (ym2612.addr_A1 != 0)
\r
1069 addr = ym2612.OPN.ST.address;
\r
1070 ym2612.REGS[addr] = d;
\r
1074 case 0x24: // timer A High 8
\r
1075 case 0x25: { // timer A Low 2
\r
1076 int TAnew = (addr == 0x24) ? ((ym2612.OPN.ST.TA & 0x03)|(((int)d)<<2))
\r
1077 : ((ym2612.OPN.ST.TA & 0x3fc)|(d&3));
\r
1078 if (ym2612.OPN.ST.TA != TAnew)
\r
1080 //elprintf(EL_STATUS, "timer a set %i", TAnew);
\r
1081 ym2612.OPN.ST.TA = TAnew;
\r
1082 //ym2612.OPN.ST.TAC = (1024-TAnew)*18;
\r
1083 //ym2612.OPN.ST.TAT = 0;
\r
1084 timer_a_step = TIMER_A_TICK_ZCYCLES * (1024 - TAnew);
\r
1085 if (ym2612.OPN.ST.mode & 1) {
\r
1086 // this is not right, should really be done on overflow only
\r
1087 int cycles = is_from_z80 ? z80_cyclesDone() : cycles_68k_to_z80(SekCyclesDone());
\r
1088 timer_a_next_oflow = (cycles << 8) + timer_a_step;
\r
1090 elprintf(EL_YMTIMER, "timer a set to %i, %i", 1024 - TAnew, timer_a_next_oflow>>8);
\r
1094 case 0x26: // timer B
\r
1095 if (ym2612.OPN.ST.TB != d) {
\r
1096 //elprintf(EL_STATUS, "timer b set %i", d);
\r
1097 ym2612.OPN.ST.TB = d;
\r
1098 //ym2612.OPN.ST.TBC = (256-d) * 288;
\r
1099 //ym2612.OPN.ST.TBT = 0;
\r
1100 timer_b_step = TIMER_B_TICK_ZCYCLES * (256 - d); // 262800
\r
1101 if (ym2612.OPN.ST.mode & 2) {
\r
1102 int cycles = is_from_z80 ? z80_cyclesDone() : cycles_68k_to_z80(SekCyclesDone());
\r
1103 timer_b_next_oflow = (cycles << 8) + timer_b_step;
\r
1105 elprintf(EL_YMTIMER, "timer b set to %i, %i", 256 - d, timer_b_next_oflow>>8);
\r
1108 case 0x27: { /* mode, timer control */
\r
1109 int old_mode = ym2612.OPN.ST.mode;
\r
1110 int cycles = is_from_z80 ? z80_cyclesDone() : cycles_68k_to_z80(SekCyclesDone());
\r
1111 ym2612.OPN.ST.mode = d;
\r
1113 elprintf(EL_YMTIMER, "st mode %02x", d);
\r
1114 ym2612_sync_timers(cycles, old_mode, d);
\r
1116 /* reset Timer a flag */
\r
1118 ym2612.OPN.ST.status &= ~1;
\r
1120 /* reset Timer b flag */
\r
1122 ym2612.OPN.ST.status &= ~2;
\r
1124 if ((d ^ old_mode) & 0xc0) {
\r
1126 if (PicoOpt & POPT_EXT_FM) return YM2612Write_940(a, d, get_scanline(is_from_z80));
\r
1132 case 0x2b: { /* DAC Sel (YM2612) */
\r
1133 int scanline = get_scanline(is_from_z80);
\r
1134 ym2612.dacen = d & 0x80;
\r
1135 if (d & 0x80) PsndDacLine = scanline;
\r
1137 if (PicoOpt & POPT_EXT_FM) YM2612Write_940(a, d, scanline);
\r
1144 case 2: /* address port 1 */
\r
1145 ym2612.OPN.ST.address = d;
\r
1146 ym2612.addr_A1 = 1;
\r
1148 if (PicoOpt & POPT_EXT_FM) YM2612Write_940(a, d, -1);
\r
1152 case 3: /* data port 1 */
\r
1153 if (ym2612.addr_A1 != 1)
\r
1156 addr = ym2612.OPN.ST.address | 0x100;
\r
1157 ym2612.REGS[addr] = d;
\r
1162 if (PicoOpt & POPT_EXT_FM)
\r
1163 return YM2612Write_940(a, d, get_scanline(is_from_z80));
\r
1165 return YM2612Write_(a, d);
\r
1169 #define ym2612_read_local() \
\r
1170 if (xcycles >= timer_a_next_oflow) \
\r
1171 ym2612.OPN.ST.status |= (ym2612.OPN.ST.mode >> 2) & 1; \
\r
1172 if (xcycles >= timer_b_next_oflow) \
\r
1173 ym2612.OPN.ST.status |= (ym2612.OPN.ST.mode >> 2) & 2
\r
1175 static u32 MEMH_FUNC ym2612_read_local_z80(void)
\r
1177 int xcycles = z80_cyclesDone() << 8;
\r
1179 ym2612_read_local();
\r
1181 elprintf(EL_YMTIMER, "timer z80 read %i, sched %i, %i @ %i|%i", ym2612.OPN.ST.status,
\r
1182 timer_a_next_oflow>>8, timer_b_next_oflow>>8, xcycles >> 8, (xcycles >> 8) / 228);
\r
1183 return ym2612.OPN.ST.status;
\r
1186 static u32 ym2612_read_local_68k(void)
\r
1188 int xcycles = cycles_68k_to_z80(SekCyclesDone()) << 8;
\r
1190 ym2612_read_local();
\r
1192 elprintf(EL_YMTIMER, "timer 68k read %i, sched %i, %i @ %i|%i", ym2612.OPN.ST.status,
\r
1193 timer_a_next_oflow>>8, timer_b_next_oflow>>8, xcycles >> 8, (xcycles >> 8) / 228);
\r
1194 return ym2612.OPN.ST.status;
\r
1197 void ym2612_pack_state(void)
\r
1199 // timers are saved as tick counts, in 16.16 int format
\r
1200 int tac, tat = 0, tbc, tbt = 0;
\r
1201 tac = 1024 - ym2612.OPN.ST.TA;
\r
1202 tbc = 256 - ym2612.OPN.ST.TB;
\r
1203 if (timer_a_next_oflow != TIMER_NO_OFLOW)
\r
1204 tat = (int)((double)(timer_a_step - timer_a_next_oflow) / (double)timer_a_step * tac * 65536);
\r
1205 if (timer_b_next_oflow != TIMER_NO_OFLOW)
\r
1206 tbt = (int)((double)(timer_b_step - timer_b_next_oflow) / (double)timer_b_step * tbc * 65536);
\r
1207 elprintf(EL_YMTIMER, "save: timer a %i/%i", tat >> 16, tac);
\r
1208 elprintf(EL_YMTIMER, "save: timer b %i/%i", tbt >> 16, tbc);
\r
1211 if (PicoOpt & POPT_EXT_FM)
\r
1212 YM2612PicoStateSave2_940(tat, tbt);
\r
1215 YM2612PicoStateSave2(tat, tbt);
\r
1218 void ym2612_unpack_state(void)
\r
1220 int i, ret, tac, tat, tbc, tbt;
\r
1221 YM2612PicoStateLoad();
\r
1223 // feed all the registers and update internal state
\r
1224 for (i = 0x20; i < 0xA0; i++) {
\r
1225 ym2612_write_local(0, i, 0);
\r
1226 ym2612_write_local(1, ym2612.REGS[i], 0);
\r
1228 for (i = 0x30; i < 0xA0; i++) {
\r
1229 ym2612_write_local(2, i, 0);
\r
1230 ym2612_write_local(3, ym2612.REGS[i|0x100], 0);
\r
1232 for (i = 0xAF; i >= 0xA0; i--) { // must apply backwards
\r
1233 ym2612_write_local(2, i, 0);
\r
1234 ym2612_write_local(3, ym2612.REGS[i|0x100], 0);
\r
1235 ym2612_write_local(0, i, 0);
\r
1236 ym2612_write_local(1, ym2612.REGS[i], 0);
\r
1238 for (i = 0xB0; i < 0xB8; i++) {
\r
1239 ym2612_write_local(0, i, 0);
\r
1240 ym2612_write_local(1, ym2612.REGS[i], 0);
\r
1241 ym2612_write_local(2, i, 0);
\r
1242 ym2612_write_local(3, ym2612.REGS[i|0x100], 0);
\r
1246 if (PicoOpt & POPT_EXT_FM)
\r
1247 ret = YM2612PicoStateLoad2_940(&tat, &tbt);
\r
1250 ret = YM2612PicoStateLoad2(&tat, &tbt);
\r
1252 elprintf(EL_STATUS, "old ym2612 state");
\r
1253 return; // no saved timers
\r
1256 tac = (1024 - ym2612.OPN.ST.TA) << 16;
\r
1257 tbc = (256 - ym2612.OPN.ST.TB) << 16;
\r
1258 if (ym2612.OPN.ST.mode & 1)
\r
1259 timer_a_next_oflow = (int)((double)(tac - tat) / (double)tac * timer_a_step);
\r
1261 timer_a_next_oflow = TIMER_NO_OFLOW;
\r
1262 if (ym2612.OPN.ST.mode & 2)
\r
1263 timer_b_next_oflow = (int)((double)(tbc - tbt) / (double)tbc * timer_b_step);
\r
1265 timer_b_next_oflow = TIMER_NO_OFLOW;
\r
1266 elprintf(EL_YMTIMER, "load: %i/%i, timer_a_next_oflow %i", tat>>16, tac>>16, timer_a_next_oflow >> 8);
\r
1267 elprintf(EL_YMTIMER, "load: %i/%i, timer_b_next_oflow %i", tbt>>16, tbc>>16, timer_b_next_oflow >> 8);
\r
1270 // -----------------------------------------------------------------
\r
1271 // z80 memhandlers
\r
1273 static unsigned char MEMH_FUNC z80_md_vdp_read(unsigned short a)
\r
1276 elprintf(EL_ANOMALY, "z80 invalid r8 [%06x] %02x", a, 0xff);
\r
1280 static unsigned char MEMH_FUNC z80_md_bank_read(unsigned short a)
\r
1282 extern unsigned int PicoReadM68k8(unsigned int a);
\r
1283 unsigned int addr68k;
\r
1284 unsigned char ret;
\r
1286 addr68k = Pico.m.z80_bank68k<<15;
\r
1287 addr68k += a & 0x7fff;
\r
1289 if (addr68k < Pico.romsize) {
\r
1290 ret = Pico.rom[addr68k^1];
\r
1294 ret = m68k_read8(addr68k);
\r
1295 elprintf(EL_ANOMALY, "z80->68k upper read [%06x] %02x", addr68k, ret);
\r
1298 elprintf(EL_Z80BNK, "z80->68k r8 [%06x] %02x", addr68k, ret);
\r
1302 static void MEMH_FUNC z80_md_ym2612_write(unsigned int a, unsigned char data)
\r
1304 if (PicoOpt & POPT_EN_FM)
\r
1305 emustatus |= ym2612_write_local(a, data, 1) & 1;
\r
1308 static void MEMH_FUNC z80_md_vdp_br_write(unsigned int a, unsigned char data)
\r
1310 // TODO: allow full VDP access
\r
1311 if ((a&0xfff9) == 0x7f11) // 7f11 7f13 7f15 7f17
\r
1313 if (PicoOpt & POPT_EN_PSG)
\r
1314 SN76496Write(data);
\r
1318 if ((a>>8) == 0x60)
\r
1320 Pico.m.z80_bank68k >>= 1;
\r
1321 Pico.m.z80_bank68k |= data << 8;
\r
1322 Pico.m.z80_bank68k &= 0x1ff; // 9 bits and filled in the new top one
\r
1326 elprintf(EL_ANOMALY, "z80 invalid w8 [%06x] %02x", a, data);
\r
1329 static void MEMH_FUNC z80_md_bank_write(unsigned int a, unsigned char data)
\r
1331 extern void PicoWriteM68k8(unsigned int a, unsigned char d);
\r
1332 unsigned int addr68k;
\r
1334 addr68k = Pico.m.z80_bank68k << 15;
\r
1335 addr68k += a & 0x7fff;
\r
1337 elprintf(EL_Z80BNK, "z80->68k w8 [%06x] %02x", addr68k, data);
\r
1338 m68k_write8(addr68k, data);
\r
1341 // -----------------------------------------------------------------
\r
1343 static unsigned char z80_md_in(unsigned short p)
\r
1345 elprintf(EL_ANOMALY, "Z80 port %04x read", p);
\r
1349 static void z80_md_out(unsigned short p, unsigned char d)
\r
1351 elprintf(EL_ANOMALY, "Z80 port %04x write %02x", p, d);
\r
1354 static void z80_mem_setup(void)
\r
1356 z80_map_set(z80_read_map, 0x0000, 0x1fff, Pico.zram, 0);
\r
1357 z80_map_set(z80_read_map, 0x2000, 0x3fff, Pico.zram, 0);
\r
1358 z80_map_set(z80_read_map, 0x4000, 0x5fff, ym2612_read_local_z80, 1);
\r
1359 z80_map_set(z80_read_map, 0x6000, 0x7fff, z80_md_vdp_read, 1);
\r
1360 z80_map_set(z80_read_map, 0x8000, 0xffff, z80_md_bank_read, 1);
\r
1362 z80_map_set(z80_write_map, 0x0000, 0x1fff, Pico.zram, 0);
\r
1363 z80_map_set(z80_write_map, 0x2000, 0x3fff, Pico.zram, 0);
\r
1364 z80_map_set(z80_write_map, 0x4000, 0x5fff, z80_md_ym2612_write, 1);
\r
1365 z80_map_set(z80_write_map, 0x6000, 0x7fff, z80_md_vdp_br_write, 1);
\r
1366 z80_map_set(z80_write_map, 0x8000, 0xffff, z80_md_bank_write, 1);
\r
1369 drZ80.z80_in = z80_md_in;
\r
1370 drZ80.z80_out = z80_md_out;
\r
1373 Cz80_Set_Fetch(&CZ80, 0x0000, 0x1fff, (UINT32)Pico.zram); // main RAM
\r
1374 Cz80_Set_Fetch(&CZ80, 0x2000, 0x3fff, (UINT32)Pico.zram); // mirror
\r
1375 Cz80_Set_INPort(&CZ80, z80_md_in);
\r
1376 Cz80_Set_OUTPort(&CZ80, z80_md_out);
\r