diff src/gba/GBAinline.h @ 1:f9f4f1b99eed

importing src directory
author Robert McIntyre <rlm@mit.edu>
date Sat, 03 Mar 2012 10:31:27 -0600
parents
children
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     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/src/gba/GBAinline.h	Sat Mar 03 10:31:27 2012 -0600
     1.3 @@ -0,0 +1,490 @@
     1.4 +#ifndef VBA_GBAINLINE_H
     1.5 +#define VBA_GBAINLINE_H
     1.6 +
     1.7 +#if _MSC_VER > 1000
     1.8 +#pragma once
     1.9 +#endif // _MSC_VER > 1000
    1.10 +
    1.11 +#include "../Port.h"
    1.12 +#include "../common/System.h"
    1.13 +#include "../common/vbalua.h"
    1.14 +#include "GBAGlobals.h"
    1.15 +#include "EEprom.h"
    1.16 +#include "Flash.h"
    1.17 +#include "RTC.h"
    1.18 +
    1.19 +extern bool8 cpuSramEnabled;
    1.20 +extern bool8 cpuFlashEnabled;
    1.21 +extern bool8 cpuEEPROMEnabled;
    1.22 +extern bool8 cpuEEPROMSensorEnabled;
    1.23 +
    1.24 +#define CPUReadByteQuick(addr) \
    1.25 +    map[(addr)>>24].address[(addr) & map[(addr)>>24].mask]
    1.26 +
    1.27 +#define CPUReadHalfWordQuick(addr) \
    1.28 +    READ16LE(((u16 *)&map[(addr)>>24].address[(addr) & map[(addr)>>24].mask]))
    1.29 +
    1.30 +#define CPUReadMemoryQuick(addr) \
    1.31 +    READ32LE(((u32 *)&map[(addr)>>24].address[(addr) & map[(addr)>>24].mask]))
    1.32 +
    1.33 +//inline u32 CPUReadMemoryQuick(u32 addr)
    1.34 +//{
    1.35 +//	u32 addrShift = (addr)>>24;
    1.36 +//	u32 rt = (addr) & map[addrShift].mask;
    1.37 +//	return READ32LE(((u32*)&map[addrShift].address[rt]));
    1.38 +//}
    1.39 +
    1.40 +inline u32 CPUReadMemory(u32 address)
    1.41 +{
    1.42 +#ifdef GBA_LOGGING
    1.43 +	if (address & 3)
    1.44 +	{
    1.45 +		if (systemVerbose & VERBOSE_UNALIGNED_MEMORY)
    1.46 +		{
    1.47 +			log("Unaligned word read: %08x at %08x\n", address, armMode ?
    1.48 +			    armNextPC - 4 : armNextPC - 2);
    1.49 +		}
    1.50 +	}
    1.51 +#endif
    1.52 +
    1.53 +	u32 value;
    1.54 +	switch (address >> 24)
    1.55 +	{
    1.56 +	case 0:
    1.57 +		if (reg[15].I >> 24)
    1.58 +		{
    1.59 +			if (address < 0x4000)
    1.60 +			{
    1.61 +#ifdef GBA_LOGGING
    1.62 +				if (systemVerbose & VERBOSE_ILLEGAL_READ)
    1.63 +				{
    1.64 +					log("Illegal word read: %08x at %08x\n", address, armMode ?
    1.65 +					    armNextPC - 4 : armNextPC - 2);
    1.66 +				}
    1.67 +#endif
    1.68 +
    1.69 +				value = READ32LE(((u32 *)&biosProtected));
    1.70 +			}
    1.71 +			else
    1.72 +				goto unreadable;
    1.73 +		}
    1.74 +		else
    1.75 +			value = READ32LE(((u32 *)&bios[address & 0x3FFC]));
    1.76 +		break;
    1.77 +	case 2:
    1.78 +		value = READ32LE(((u32 *)&workRAM[address & 0x3FFFC]));
    1.79 +		break;
    1.80 +	case 3:
    1.81 +		value = READ32LE(((u32 *)&internalRAM[address & 0x7ffC]));
    1.82 +		break;
    1.83 +	case 4:
    1.84 +		if ((address < 0x4000400) && ioReadable[address & 0x3fc])
    1.85 +		{
    1.86 +			if (ioReadable[(address & 0x3fc) + 2])
    1.87 +			{
    1.88 +				if (address >= 0x400012d && address <= 0x4000131)
    1.89 +					GBASystemCounters.lagged = false;
    1.90 +				value = READ32LE(((u32 *)&ioMem[address & 0x3fC]));
    1.91 +			}
    1.92 +			else
    1.93 +			{
    1.94 +				if (address >= 0x400012f && address <= 0x4000131)
    1.95 +					GBASystemCounters.lagged = false;
    1.96 +				value = READ16LE(((u16 *)&ioMem[address & 0x3fc]));
    1.97 +			}
    1.98 +		}
    1.99 +		else
   1.100 +			goto unreadable;
   1.101 +		break;
   1.102 +	case 5:
   1.103 +		value = READ32LE(((u32 *)&paletteRAM[address & 0x3fC]));
   1.104 +		break;
   1.105 +	case 6:
   1.106 +		value = READ32LE(((u32 *)&vram[address & 0x1fffc]));
   1.107 +		break;
   1.108 +	case 7:
   1.109 +		value = READ32LE(((u32 *)&oam[address & 0x3FC]));
   1.110 +		break;
   1.111 +	case 8:
   1.112 +	case 9:
   1.113 +	case 10:
   1.114 +	case 11:
   1.115 +	case 12:
   1.116 +		value = READ32LE(((u32 *)&rom[address&0x1FFFFFC]));
   1.117 +		break;
   1.118 +	case 13:
   1.119 +		if (cpuEEPROMEnabled)
   1.120 +			// no need to swap this
   1.121 +			return eepromRead(address);
   1.122 +		goto unreadable;
   1.123 +	case 14:
   1.124 +		if (cpuFlashEnabled | cpuSramEnabled)
   1.125 +			// no need to swap this
   1.126 +			return flashRead(address);
   1.127 +	// default
   1.128 +	default:
   1.129 +unreadable:
   1.130 +#ifdef GBA_LOGGING
   1.131 +		if (systemVerbose & VERBOSE_ILLEGAL_READ)
   1.132 +		{
   1.133 +			log("Illegal word read: %08x at %08x\n", address, armMode ?
   1.134 +			    armNextPC - 4 : armNextPC - 2);
   1.135 +		}
   1.136 +#endif
   1.137 +
   1.138 +		//    if(ioMem[0x205] & 0x40) {
   1.139 +		if (armState)
   1.140 +		{
   1.141 +			value = CPUReadMemoryQuick(reg[15].I);
   1.142 +		}
   1.143 +		else
   1.144 +		{
   1.145 +			value = CPUReadHalfWordQuick(reg[15].I) |
   1.146 +			        CPUReadHalfWordQuick(reg[15].I) << 16;
   1.147 +		}
   1.148 +		//  } else {
   1.149 +		//      value = *((u32 *)&bios[address & 0x3ffc]);
   1.150 +		//    }
   1.151 +		//        return 0xFFFFFFFF;
   1.152 +	}
   1.153 +
   1.154 +	if (address & 3)
   1.155 +	{
   1.156 +#ifdef C_CORE
   1.157 +		int shift = (address & 3) << 3;
   1.158 +		value = (value >> shift) | (value << (32 - shift));
   1.159 +#else
   1.160 +#ifdef __GNUC__
   1.161 +		asm ("and $3, %%ecx;"
   1.162 +		     "shl $3 ,%%ecx;"
   1.163 +		     "ror %%cl, %0"
   1.164 +			 : "=r" (value)
   1.165 +			 : "r" (value), "c" (address));
   1.166 +#else
   1.167 +		__asm {
   1.168 +			mov ecx, address;
   1.169 +			and ecx, 3;
   1.170 +			shl ecx, 3;
   1.171 +			ror [dword ptr value], cl;
   1.172 +		}
   1.173 +#endif
   1.174 +#endif
   1.175 +	}
   1.176 +	return value;
   1.177 +}
   1.178 +
   1.179 +extern u32 myROM[];
   1.180 +
   1.181 +inline u32 CPUReadHalfWord(u32 address)
   1.182 +{
   1.183 +#ifdef GBA_LOGGING
   1.184 +	if (address & 1)
   1.185 +	{
   1.186 +		if (systemVerbose & VERBOSE_UNALIGNED_MEMORY)
   1.187 +		{
   1.188 +			log("Unaligned halfword read: %08x at %08x\n", address, armMode ?
   1.189 +			    armNextPC - 4 : armNextPC - 2);
   1.190 +		}
   1.191 +	}
   1.192 +#endif
   1.193 +
   1.194 +	u32 value;
   1.195 +
   1.196 +	switch (address >> 24)
   1.197 +	{
   1.198 +	case 0:
   1.199 +		if (reg[15].I >> 24)
   1.200 +		{
   1.201 +			if (address < 0x4000)
   1.202 +			{
   1.203 +#ifdef GBA_LOGGING
   1.204 +				if (systemVerbose & VERBOSE_ILLEGAL_READ)
   1.205 +				{
   1.206 +					log("Illegal halfword read: %08x at %08x\n", address, armMode ?
   1.207 +					    armNextPC - 4 : armNextPC - 2);
   1.208 +				}
   1.209 +#endif
   1.210 +				value = READ16LE(((u16 *)&biosProtected[address&2]));
   1.211 +			}
   1.212 +			else
   1.213 +				goto unreadable;
   1.214 +		}
   1.215 +		else
   1.216 +			value = READ16LE(((u16 *)&bios[address & 0x3FFE]));
   1.217 +		break;
   1.218 +	case 2:
   1.219 +		value = READ16LE(((u16 *)&workRAM[address & 0x3FFFE]));
   1.220 +		break;
   1.221 +	case 3:
   1.222 +		value = READ16LE(((u16 *)&internalRAM[address & 0x7ffe]));
   1.223 +		break;
   1.224 +	case 4:
   1.225 +		if ((address < 0x4000400) && ioReadable[address & 0x3fe])
   1.226 +		{
   1.227 +			if (address >= 0x400012f && address <= 0x4000131)
   1.228 +				GBASystemCounters.lagged = false;
   1.229 +			value =  READ16LE(((u16 *)&ioMem[address & 0x3fe]));
   1.230 +		}
   1.231 +		else
   1.232 +			goto unreadable;
   1.233 +		break;
   1.234 +	case 5:
   1.235 +		value = READ16LE(((u16 *)&paletteRAM[address & 0x3fe]));
   1.236 +		break;
   1.237 +	case 6:
   1.238 +		value = READ16LE(((u16 *)&vram[address & 0x1fffe]));
   1.239 +		break;
   1.240 +	case 7:
   1.241 +		value = READ16LE(((u16 *)&oam[address & 0x3fe]));
   1.242 +		break;
   1.243 +	case 8:
   1.244 +	case 9:
   1.245 +	case 10:
   1.246 +	case 11:
   1.247 +	case 12:
   1.248 +		if (address == 0x80000c4 || address == 0x80000c6 || address == 0x80000c8)
   1.249 +			value = rtcRead(address);
   1.250 +		else
   1.251 +			value = READ16LE(((u16 *)&rom[address & 0x1FFFFFE]));
   1.252 +		break;
   1.253 +	case 13:
   1.254 +		if (cpuEEPROMEnabled)
   1.255 +			// no need to swap this
   1.256 +			return eepromRead(address);
   1.257 +		goto unreadable;
   1.258 +	case 14:
   1.259 +		if (cpuFlashEnabled | cpuSramEnabled)
   1.260 +			// no need to swap this
   1.261 +			return flashRead(address);
   1.262 +	// default
   1.263 +	default:
   1.264 +unreadable:
   1.265 +#ifdef GBA_LOGGING
   1.266 +		if (systemVerbose & VERBOSE_ILLEGAL_READ)
   1.267 +		{
   1.268 +			log("Illegal halfword read: %08x at %08x\n", address, armMode ?
   1.269 +			    armNextPC - 4 : armNextPC - 2);
   1.270 +		}
   1.271 +#endif
   1.272 +		extern bool8 cpuDmaHack;
   1.273 +		extern u32   cpuDmaLast;
   1.274 +		extern int32 cpuDmaCount;
   1.275 +		if (cpuDmaHack && cpuDmaCount)
   1.276 +		{
   1.277 +			value = (u16)cpuDmaLast;
   1.278 +		}
   1.279 +		else
   1.280 +		{
   1.281 +			if (armState)
   1.282 +			{
   1.283 +				value = CPUReadHalfWordQuick(reg[15].I + (address & 2));
   1.284 +			}
   1.285 +			else
   1.286 +			{
   1.287 +				value = CPUReadHalfWordQuick(reg[15].I);
   1.288 +			}
   1.289 +		}
   1.290 +		//    return value;
   1.291 +		//    if(address & 1)
   1.292 +		//      value = (value >> 8) | ((value & 0xFF) << 24);
   1.293 +		//    return 0xFFFF;
   1.294 +		break;
   1.295 +	}
   1.296 +
   1.297 +	if (address & 1)
   1.298 +	{
   1.299 +		value = (value >> 8) | (value << 24);
   1.300 +	}
   1.301 +
   1.302 +	return value;
   1.303 +}
   1.304 +
   1.305 +inline u16 CPUReadHalfWordSigned(u32 address)
   1.306 +{
   1.307 +	u16 value = CPUReadHalfWord(address);
   1.308 +	if ((address & 1))
   1.309 +		value = (s8)value;
   1.310 +	return value;
   1.311 +}
   1.312 +
   1.313 +inline u8 CPUReadByte(u32 address)
   1.314 +{
   1.315 +	switch (address >> 24)
   1.316 +	{
   1.317 +	case 0:
   1.318 +		if (reg[15].I >> 24)
   1.319 +		{
   1.320 +			if (address < 0x4000)
   1.321 +			{
   1.322 +#ifdef GBA_LOGGING
   1.323 +				if (systemVerbose & VERBOSE_ILLEGAL_READ)
   1.324 +				{
   1.325 +					log("Illegal byte read: %08x at %08x\n", address, armMode ?
   1.326 +					    armNextPC - 4 : armNextPC - 2);
   1.327 +				}
   1.328 +#endif
   1.329 +				return biosProtected[address & 3];
   1.330 +			}
   1.331 +			else
   1.332 +				goto unreadable;
   1.333 +		}
   1.334 +		return bios[address & 0x3FFF];
   1.335 +	case 2:
   1.336 +		return workRAM[address & 0x3FFFF];
   1.337 +	case 3:
   1.338 +		return internalRAM[address & 0x7fff];
   1.339 +	case 4:
   1.340 +		if ((address < 0x4000400) && ioReadable[address & 0x3ff])
   1.341 +		{
   1.342 +			if (address == 0x4000130 || address == 0x4000131)
   1.343 +				GBASystemCounters.lagged = false;
   1.344 +			return ioMem[address & 0x3ff];
   1.345 +		}
   1.346 +		else
   1.347 +			goto unreadable;
   1.348 +	case 5:
   1.349 +		return paletteRAM[address & 0x3ff];
   1.350 +	case 6:
   1.351 +		return vram[address & 0x1ffff];
   1.352 +	case 7:
   1.353 +		return oam[address & 0x3ff];
   1.354 +	case 8:
   1.355 +	case 9:
   1.356 +	case 10:
   1.357 +	case 11:
   1.358 +	case 12:
   1.359 +		return rom[address & 0x1FFFFFF];
   1.360 +	case 13:
   1.361 +		if (cpuEEPROMEnabled)
   1.362 +			return eepromRead(address);
   1.363 +		goto unreadable;
   1.364 +	case 14:
   1.365 +		if (cpuSramEnabled | cpuFlashEnabled)
   1.366 +			return flashRead(address);
   1.367 +		if (cpuEEPROMSensorEnabled)
   1.368 +		{
   1.369 +			switch (address & 0x00008f00)
   1.370 +			{
   1.371 +			case 0x8200:
   1.372 +				return systemGetSensorX() & 255;
   1.373 +			case 0x8300:
   1.374 +				return (systemGetSensorX() >> 8)|0x80;
   1.375 +			case 0x8400:
   1.376 +				return systemGetSensorY() & 255;
   1.377 +			case 0x8500:
   1.378 +				return systemGetSensorY() >> 8;
   1.379 +			}
   1.380 +		}
   1.381 +	// default
   1.382 +	default:
   1.383 +unreadable:
   1.384 +#ifdef GBA_LOGGING
   1.385 +		if (systemVerbose & VERBOSE_ILLEGAL_READ)
   1.386 +		{
   1.387 +			log("Illegal byte read: %08x at %08x\n", address, armMode ?
   1.388 +			    armNextPC - 4 : armNextPC - 2);
   1.389 +		}
   1.390 +#endif
   1.391 +
   1.392 +		if (armState)
   1.393 +		{
   1.394 +			return CPUReadByteQuick(reg[15].I+(address & 3));
   1.395 +		}
   1.396 +		else
   1.397 +		{
   1.398 +			return CPUReadByteQuick(reg[15].I+(address & 1));
   1.399 +		}
   1.400 +		//    return 0xFF;
   1.401 +		break;
   1.402 +	}
   1.403 +}
   1.404 +
   1.405 +inline void CPUWriteMemoryWrapped(u32 address, u32 value)
   1.406 +{
   1.407 +#ifdef GBA_LOGGING
   1.408 +	if (address & 3)
   1.409 +	{
   1.410 +		if (systemVerbose & VERBOSE_UNALIGNED_MEMORY)
   1.411 +		{
   1.412 +			log("Unaliagned word write: %08x to %08x from %08x\n",
   1.413 +			    value,
   1.414 +			    address,
   1.415 +			    armMode ? armNextPC - 4 : armNextPC - 2);
   1.416 +		}
   1.417 +	}
   1.418 +#endif
   1.419 +
   1.420 +	switch (address >> 24)
   1.421 +	{
   1.422 +	case 0x02:
   1.423 +#ifdef SDL
   1.424 +		if (*((u32 *)&freezeWorkRAM[address & 0x3FFFC]))
   1.425 +			cheatsWriteMemory((u32 *)&workRAM[address & 0x3FFFC],
   1.426 +			                  value,
   1.427 +			                  *((u32 *)&freezeWorkRAM[address & 0x3FFFC]));
   1.428 +		else
   1.429 +#endif
   1.430 +		WRITE32LE(((u32 *)&workRAM[address & 0x3FFFC]), value);
   1.431 +		break;
   1.432 +	case 0x03:
   1.433 +#ifdef SDL
   1.434 +		if (*((u32 *)&freezeInternalRAM[address & 0x7ffc]))
   1.435 +			cheatsWriteMemory((u32 *)&internalRAM[address & 0x7FFC],
   1.436 +			                  value,
   1.437 +			                  *((u32 *)&freezeInternalRAM[address & 0x7ffc]));
   1.438 +		else
   1.439 +#endif
   1.440 +		WRITE32LE(((u32 *)&internalRAM[address & 0x7ffC]), value);
   1.441 +		break;
   1.442 +	case 0x04:
   1.443 +		CPUUpdateRegister((address & 0x3FC), value & 0xFFFF);
   1.444 +		CPUUpdateRegister((address & 0x3FC) + 2, (value >> 16));
   1.445 +		break;
   1.446 +	case 0x05:
   1.447 +		WRITE32LE(((u32 *)&paletteRAM[address & 0x3FC]), value);
   1.448 +		break;
   1.449 +	case 0x06:
   1.450 +		if (address & 0x10000)
   1.451 +			WRITE32LE(((u32 *)&vram[address & 0x17ffc]), value);
   1.452 +		else
   1.453 +			WRITE32LE(((u32 *)&vram[address & 0x1fffc]), value);
   1.454 +		break;
   1.455 +	case 0x07:
   1.456 +		WRITE32LE(((u32 *)&oam[address & 0x3fc]), value);
   1.457 +		break;
   1.458 +	case 0x0D:
   1.459 +		if (cpuEEPROMEnabled)
   1.460 +		{
   1.461 +			eepromWrite(address, value);
   1.462 +			break;
   1.463 +		}
   1.464 +		goto unwritable;
   1.465 +	case 0x0E:
   1.466 +		if (!eepromInUse | cpuSramEnabled | cpuFlashEnabled)
   1.467 +		{
   1.468 +			(*cpuSaveGameFunc)(address, (u8)value);
   1.469 +			break;
   1.470 +		}
   1.471 +	// default
   1.472 +	default:
   1.473 +unwritable:
   1.474 +#ifdef GBA_LOGGING
   1.475 +		if (systemVerbose & VERBOSE_ILLEGAL_WRITE)
   1.476 +		{
   1.477 +			log("Illegal word write: %08x to %08x from %08x\n",
   1.478 +			    value,
   1.479 +			    address,
   1.480 +			    armMode ? armNextPC - 4 : armNextPC - 2);
   1.481 +		}
   1.482 +#endif
   1.483 +		break;
   1.484 +	}
   1.485 +}
   1.486 +
   1.487 +inline void CPUWriteMemory(u32 address, u32 value)
   1.488 +{
   1.489 +	CPUWriteMemoryWrapped(address, value);
   1.490 +	CallRegisteredLuaMemHook(address, 4, value, LUAMEMHOOK_WRITE);
   1.491 +}
   1.492 +
   1.493 +#endif // VBA_GBAINLINE_H