#include #include #include "../System.h" #include "../common/Port.h" #include "../Util.h" #include "gb.h" #include "gbGlobals.h" extern u8 *pix; extern bool speedup; extern bool gbSgbResetFlag; #define GBSGB_NONE 0 #define GBSGB_RESET 1 #define GBSGB_PACKET_TRANSMIT 2 u8 *gbSgbBorderChar = NULL; u8 *gbSgbBorder = NULL; int gbSgbCGBSupport = 0; int gbSgbMask = 0; int gbSgbMode = 0; int gbSgbPacketState = GBSGB_NONE; int gbSgbBit = 0; int gbSgbPacketTimeout = 0; int GBSGB_PACKET_TIMEOUT = 66666; u8 gbSgbPacket[16*7]; int gbSgbPacketNBits = 0; int gbSgbPacketByte = 0; int gbSgbPacketNumber = 0; int gbSgbMultiplayer = 0; int gbSgbFourPlayers = 0; u8 gbSgbNextController = 0x0f; u8 gbSgbReadingController = 0; u16 gbSgbSCPPalette[4*512]; u8 gbSgbATF[20 * 18]; u8 gbSgbATFList[45 * 20 * 18]; u8 gbSgbScreenBuffer[4160]; inline void gbSgbDraw24Bit(u8 *p, u16 v) { *((u32*) p) = systemColorMap32[v]; } inline void gbSgbDraw32Bit(u32 *p, u16 v) { *p = systemColorMap32[v]; } inline void gbSgbDraw16Bit(u16 *p, u16 v) { *p = systemColorMap16[v]; } void gbSgbReset() { gbSgbPacketTimeout = 0; gbSgbCGBSupport = 0; gbSgbMask = 0; gbSgbPacketState = GBSGB_NONE; gbSgbBit = 0; gbSgbPacketNBits = 0; gbSgbPacketNumber = 0; gbSgbMultiplayer = 0; gbSgbFourPlayers = 0; gbSgbNextController = 0x0f; gbSgbReadingController = 0; memset(gbSgbSCPPalette, 0, 512*4); memset(gbSgbATF, 0, 20*18); memset(gbSgbATFList, 0, 45 * 20 * 18); memset(gbSgbPacket, 0, 16 * 7); memset(gbSgbBorderChar, 0, 32*256); memset(gbSgbBorder, 0, 2048); int i; for(i = 1; i < 2048; i+=2) { gbSgbBorder[i] = 1 << 2; } for(i = 0; i < 32; i++) { gbPalette[i*4] = (0x1f) | (0x1f << 5) | (0x1f << 10); gbPalette[i*4+1] = (0x15) | (0x15 << 5) | (0x15 << 10); gbPalette[i*4+2] = (0x0c) | (0x0c << 5) | (0x0c << 10); gbPalette[i*4+3] = 0; } } void gbSgbInit() { gbSgbBorderChar = (u8 *)malloc(32 * 256); gbSgbBorder = (u8 *)malloc(2048); gbSgbReset(); } void gbSgbShutdown() { if(gbSgbBorderChar != NULL) { free(gbSgbBorderChar); gbSgbBorderChar = NULL; } if(gbSgbBorder != NULL) { free(gbSgbBorder); gbSgbBorder = NULL; } } void gbSgbFillScreen(u16 color) { switch(systemColorDepth) { case 16: { for(int y = 0; y < 144; y++) { int yLine = (y+gbBorderRowSkip+1)*(gbBorderLineSkip+2) + gbBorderColumnSkip; u16 *dest = (u16*)pix + yLine; for(register int x = 0; x < 160; x++) gbSgbDraw16Bit(dest++, color); } } break; case 24: { for(int y = 0; y < 144; y++) { int yLine = (y+gbBorderRowSkip)*gbBorderLineSkip + gbBorderColumnSkip; u8 *dest = (u8 *)pix + yLine*3; for(register int x = 0; x < 160; x++) { gbSgbDraw24Bit(dest, color); dest += 3; } } } break; case 32: { for(int y = 0; y < 144; y++) { int yLine = (y+gbBorderRowSkip+1)*(gbBorderLineSkip+1) + gbBorderColumnSkip; u32 *dest = (u32 *)pix + yLine; for(register int x = 0; x < 160; x++) { gbSgbDraw32Bit(dest++, color); } } } break; } } #define getmem(x) gbMemoryMap[(x) >> 12][(x) & 0xfff] void gbSgbRenderScreenToBuffer() { u16 mapAddress = 0x9800; if(register_LCDC & 0x08) mapAddress = 0x9c00; u16 patternAddress = 0x8800; int flag = 1; if(register_LCDC & 0x10) { patternAddress = 0x8000; flag = 0; } u8 *toAddress = gbSgbScreenBuffer; for(int i = 0; i < 13; i++) { for(int j = 0; j < 20; j++) { int tile = getmem(mapAddress); mapAddress++; if(flag) { if(tile > 127) tile -= 128; else tile += 128; } for(int k = 0; k < 16; k++) *toAddress++ = getmem(patternAddress + tile*16 + k); } mapAddress += 12; } } void gbSgbDrawBorderTile(int x, int y, int tile, int attr) { u16 *dest = (u16*)pix + ((y+1) * (256+2)) + x; u8 *dest8 = (u8*)pix + ((y*256)+x)*3; u32 *dest32 = (u32*)pix + ((y+1)*257) + x; u8 *tileAddress = &gbSgbBorderChar[tile * 32]; u8 *tileAddress2 = &gbSgbBorderChar[tile * 32 + 16]; u8 l = 8; u8 palette = ((attr >> 2 ) & 7); if(palette < 4) palette += 4; palette *= 16; u8 xx = 0; u8 yy = 0; int flipX = attr & 0x40; int flipY = attr & 0x80; while(l > 0) { u8 mask = 0x80; u8 a = *tileAddress++; u8 b = *tileAddress++; u8 c = *tileAddress2++; u8 d = *tileAddress2++; u8 yyy; if(!flipY) yyy = yy; else yyy = 7 - yy; while(mask > 0) { u8 color = 0; if(a & mask) color++; if(b & mask) color+=2; if(c & mask) color+=4; if(d & mask) color+=8; if (color || (y + yy < 40 || y + yy >= 184) || (x + xx < 48 || x + xx >= 208)) { u8 xxx; if(!flipX) xxx = xx; else xxx = 7 - xx; u16 c; if (color) { c = gbPalette[palette + color]; } else { c = gbPalette[0]; } switch(systemColorDepth) { case 16: gbSgbDraw16Bit(dest + yyy*(256+2) + xxx, c); break; case 24: gbSgbDraw24Bit(dest8 + (yyy*256+xxx)*3, c); break; case 32: gbSgbDraw32Bit(dest32 + yyy*(256+1)+xxx, c); break; } } mask >>= 1; xx++; } yy++; xx = 0; l--; mask = 0x80; } } void gbSgbRenderBorder() { if(gbBorderOn) { u8 *fromAddress = gbSgbBorder; for(u8 y = 0; y < 28; y++) { for(u8 x = 0; x< 32; x++) { u8 tile = *fromAddress++; u8 attr = *fromAddress++; gbSgbDrawBorderTile(x*8,y*8,tile,attr); } } } } void gbSgbPicture() { gbSgbRenderScreenToBuffer(); memcpy(gbSgbBorder, gbSgbScreenBuffer, 2048); u16 *paletteAddr = (u16 *)&gbSgbScreenBuffer[2048]; for(int i = 64; i < 128; i++) { gbPalette[i] = READ16LE(paletteAddr++); } gbSgbCGBSupport |= 4; if(gbBorderAutomatic && !gbBorderOn && gbSgbCGBSupport > 4) { gbBorderOn = 1; systemGbBorderOn(); } if(gbBorderOn && !gbSgbMask) gbSgbRenderBorder(); if(gbSgbMode && gbCgbMode && gbSgbCGBSupport > 4) { gbSgbCGBSupport = 0; gbSgbMode = 0; gbSgbMask = 0; gbSgbRenderBorder(); gbReset(); } if(gbSgbCGBSupport > 4) gbSgbCGBSupport = 0; } void gbSgbSetPalette(int a,int b,u16 *p) { u16 bit00 = READ16LE(p++); int i; for(i = 1; i < 4; i++) { gbPalette[a*4+i] = READ16LE(p++); } for(i = 1; i < 4; i++) { gbPalette[b*4+i] = READ16LE(p++); } gbPalette[0] = gbPalette[4] = gbPalette[8] = gbPalette[12] = bit00; if(gbBorderOn && !gbSgbMask) gbSgbRenderBorder(); } void gbSgbScpPalette() { gbSgbRenderScreenToBuffer(); u16 *fromAddress = (u16 *)gbSgbScreenBuffer; for(int i = 0; i < 512*4; i++) { gbSgbSCPPalette[i] = READ16LE(fromAddress++); } } void gbSgbSetATF(int n) { if(n < 0) n = 0; if(n > 44) n = 44; memcpy(gbSgbATF,&gbSgbATFList[n * 20 * 18], 20 * 18); if(gbSgbPacket[1] & 0x40) { gbSgbMask = 0; if(gbBorderOn) gbSgbRenderBorder(); } } void gbSgbSetPalette() { u16 pal = READ16LE((((u16 *)&gbSgbPacket[1])))&511; memcpy(&gbPalette[0], &gbSgbSCPPalette[pal*4], 4 * sizeof(u16)); pal = READ16LE((((u16 *)&gbSgbPacket[3])))&511; memcpy(&gbPalette[4], &gbSgbSCPPalette[pal*4], 4 * sizeof(u16)); pal = READ16LE((((u16 *)&gbSgbPacket[5])))&511; memcpy(&gbPalette[8], &gbSgbSCPPalette[pal*4], 4 * sizeof(u16)); pal = READ16LE((((u16 *)&gbSgbPacket[7])))&511; memcpy(&gbPalette[12], &gbSgbSCPPalette[pal*4], 4 * sizeof(u16)); u8 atf = gbSgbPacket[9]; if(atf & 0x80) { gbSgbSetATF(atf & 0x3f); } if(atf & 0x40) { gbSgbMask = 0; if(gbBorderOn) gbSgbRenderBorder(); } } void gbSgbAttributeBlock() { u8 *fromAddress = &gbSgbPacket[1]; u8 nDataSet = *fromAddress++; if(nDataSet > 12) nDataSet = 12; if(nDataSet == 0) nDataSet = 1; while(nDataSet) { u8 controlCode = (*fromAddress++) & 7; u8 paletteDesignation = (*fromAddress++) & 0x3f; u8 startH = (*fromAddress++) & 0x1f; u8 startV = (*fromAddress++) & 0x1f; u8 endH = (*fromAddress++) & 0x1f; u8 endV = (*fromAddress++) & 0x1f; u8 * toAddress = gbSgbATF; for(u8 y = 0; y < 18; y++) { for(u8 x = 0; x < 20; x++) { if(x < startH || y < startV || x > endH || y > endV) { // outside if(controlCode & 0x04) *toAddress = (paletteDesignation >> 4) & 0x03; } else if(x > startH && x < endH && y > startV && y < endV) { // inside if(controlCode & 0x01) *toAddress = paletteDesignation & 0x03; } else { // surrounding line if(controlCode & 0x02) *toAddress = (paletteDesignation>>2) & 0x03; else if(controlCode == 0x01) *toAddress = paletteDesignation & 0x03; } toAddress++; } } nDataSet--; } } void gbSgbSetColumnPalette(u8 col, u8 p) { // if(col < 0) // col = 0; if(col > 19) col = 19; p &= 3; u8 *toAddress = &gbSgbATF[col]; for(u8 y = 0; y < 18; y++) { *toAddress = p; toAddress += 20; } } void gbSgbSetRowPalette(u8 row, u8 p) { // if(row < 0) // row = 0; if(row > 17) row = 17; p &= 3; u8 *toAddress = &gbSgbATF[row*20]; for(u8 x = 0; x < 20; x++) { *toAddress++ = p; } } void gbSgbAttributeDivide() { u8 control = gbSgbPacket[1]; u8 coord = gbSgbPacket[2]; u8 colorBR = control & 3; u8 colorAL = (control >> 2) & 3; u8 colorOL = (control >> 4) & 3; if(control & 0x40) { if(coord > 17) coord = 17; for(u8 i = 0; i < 18; i++) { if(i < coord) gbSgbSetRowPalette(i, colorAL); else if ( i > coord) gbSgbSetRowPalette(i, colorBR); else gbSgbSetRowPalette(i, colorOL); } } else { if(coord > 19) coord = 19; for(u8 i = 0; i < 20; i++) { if(i < coord) gbSgbSetColumnPalette(i, colorAL); else if ( i > coord) gbSgbSetColumnPalette(i, colorBR); else gbSgbSetColumnPalette(i, colorOL); } } } void gbSgbAttributeLine() { u8 *fromAddress = &gbSgbPacket[1]; u8 nDataSet = *fromAddress++; if(nDataSet > 0x6e) nDataSet = 0x6e; while(nDataSet) { u8 line = *fromAddress++; u8 num = line & 0x1f; u8 pal = (line >> 5) & 0x03; if(line & 0x80) { if(num > 17) num = 17; gbSgbSetRowPalette(num,pal); } else { if(num > 19) num = 19; gbSgbSetColumnPalette(num,pal); } nDataSet--; } } void gbSgbAttributeCharacter() { u8 startH = gbSgbPacket[1] & 0x1f; u8 startV = gbSgbPacket[2] & 0x1f; int nDataSet = READ16LE(((u16 *)&gbSgbPacket[3])); int style = gbSgbPacket[5] & 1; if(startH > 19) startH = 19; if(startV > 17) startV = 17; u8 s = 6; u8 *fromAddress = &gbSgbPacket[6]; u8 v = *fromAddress++; if(style) { while(nDataSet) { u8 p = (v >> s) & 3; gbSgbATF[startV * 20 + startH] = p; startV++; if(startV == 18) { startV = 0; startH++; if(startH == 20) break; } if(s) s -= 2; else { s = 6; v = *fromAddress++; nDataSet--; } } } else { while(nDataSet) { u8 p = (v >> s) & 3; gbSgbATF[startV * 20 + startH] = p; startH++; if(startH == 20) { startH = 0; startV++; if(startV == 18) break; } if(s) s -= 2; else { s = 6; v = *fromAddress++; nDataSet--; } } } } void gbSgbSetATFList() { gbSgbRenderScreenToBuffer(); u8 *fromAddress = gbSgbScreenBuffer; u8 *toAddress = gbSgbATFList; for(int i = 0; i < 45; i++) { for(int j = 0; j < 90; j++) { u8 v = *fromAddress++; u8 s = 6; if(i == 2) s = 6; for(int k = 0; k < 4; k++) { *toAddress++ = (v >> s) & 0x03; s -= 2; } } } } void gbSgbMaskEnable() { int gbSgbMaskFlag = gbSgbPacket[1] & 3; gbSgbMask = gbSgbMaskFlag; switch(gbSgbMaskFlag) { case 1: break; case 2: gbSgbFillScreen(0x0000); // memset(&gbPalette[0], 0, 128*sizeof(u16)); break; case 3: gbSgbFillScreen(gbPalette[0]); break; } if(!gbSgbMask) { if(gbBorderOn) gbSgbRenderBorder(); } } void gbSgbChrTransfer() { gbSgbRenderScreenToBuffer(); int address = (gbSgbPacket[1] & 1) * (128*32); if(gbSgbPacket[1] & 1) gbSgbCGBSupport |= 2; else gbSgbCGBSupport |= 1; memcpy(&gbSgbBorderChar[address], gbSgbScreenBuffer, 128 * 32); if(gbBorderAutomatic && !gbBorderOn && gbSgbCGBSupport > 4) { gbBorderOn = 1; systemGbBorderOn(); } if(gbBorderOn && !gbSgbMask) gbSgbRenderBorder(); if(gbSgbMode && gbCgbMode && gbSgbCGBSupport == 7) { gbSgbCGBSupport = 0; gbSgbMode = 0; gbSgbMask = 0; gbSgbRenderBorder(); gbReset(); } if(gbSgbCGBSupport > 4) gbSgbCGBSupport = 0; } void gbSgbMultiRequest() { if(gbSgbPacket[1] & 1) { gbSgbMultiplayer = 1; if(gbSgbPacket[1] & 2) gbSgbFourPlayers = 1; else gbSgbFourPlayers = 0; gbSgbNextController = 0x0e; } else { gbSgbFourPlayers = 0; gbSgbMultiplayer = 0; gbSgbNextController = 0x0f; } } void gbSgbCommand() { int command = gbSgbPacket[0] >> 3; // int nPacket = gbSgbPacket[0] & 7; switch(command) { case 0x00: gbSgbSetPalette(0,1,(u16 *)&gbSgbPacket[1]); break; case 0x01: gbSgbSetPalette(2,3,(u16 *)&gbSgbPacket[1]); break; case 0x02: gbSgbSetPalette(0,3,(u16 *)&gbSgbPacket[1]); break; case 0x03: gbSgbSetPalette(1,2,(u16 *)&gbSgbPacket[1]); break; case 0x04: gbSgbAttributeBlock(); break; case 0x05: gbSgbAttributeLine(); break; case 0x06: gbSgbAttributeDivide(); break; case 0x07: gbSgbAttributeCharacter(); break; case 0x0a: gbSgbSetPalette(); break; case 0x0b: gbSgbScpPalette(); break; case 0x11: gbSgbMultiRequest(); break; case 0x13: gbSgbChrTransfer(); break; case 0x14: gbSgbPicture(); break; case 0x15: gbSgbSetATFList(); break; case 0x16: gbSgbSetATF(gbSgbPacket[1] & 0x3f); break; case 0x17: gbSgbMaskEnable(); break; } } void gbSgbResetPacketState() { gbSgbPacketState = GBSGB_NONE; gbSgbPacketTimeout = 0; } void gbSgbDoBitTransfer(u8 value) { value = value & 0x30; switch(gbSgbPacketState) { case GBSGB_NONE: if(value == 0) { gbSgbPacketState = GBSGB_RESET; gbSgbPacketTimeout = GBSGB_PACKET_TIMEOUT; } else if (value == 0x30) { if(gbSgbMultiplayer) { if((gbSgbReadingController & 7) == 7) { gbSgbReadingController = 0; if(gbSgbMultiplayer) { gbSgbNextController--; if(gbSgbFourPlayers) { if(gbSgbNextController == 0x0b) gbSgbNextController = 0x0f; } else { if(gbSgbNextController == 0x0d) gbSgbNextController = 0x0f; } } } else { gbSgbReadingController &= 3; } } gbSgbPacketTimeout = 0; } else { if(value == 0x10) gbSgbReadingController |= 0x2; else if(value == 0x20) gbSgbReadingController |= 0x01; gbSgbPacketTimeout = 0; } gbSgbPacketTimeout = 0; break; case GBSGB_RESET: if(value == 0x30) { gbSgbPacketState = GBSGB_PACKET_TRANSMIT; gbSgbPacketByte = 0; gbSgbPacketNBits = 0; gbSgbPacketTimeout = GBSGB_PACKET_TIMEOUT; } else if(value == 0x00) { gbSgbPacketTimeout = GBSGB_PACKET_TIMEOUT; gbSgbPacketState = GBSGB_RESET; } else { gbSgbPacketState = GBSGB_NONE; gbSgbPacketTimeout = 0; } break; case GBSGB_PACKET_TRANSMIT: if(value == 0) { gbSgbPacketState = GBSGB_RESET; gbSgbPacketTimeout = 0; } else if (value == 0x30){ if(gbSgbPacketNBits == 128) { gbSgbPacketNBits = 0; gbSgbPacketByte = 0; gbSgbPacketNumber++; gbSgbPacketTimeout = 0; if(gbSgbPacketNumber == (gbSgbPacket[0] & 7)) { gbSgbCommand(); gbSgbPacketNumber = 0; gbSgbPacketState = GBSGB_NONE; gbSgbPacketTimeout = 0; } } else { if(gbSgbPacketNBits < 128) { gbSgbPacket[gbSgbPacketNumber * 16 + gbSgbPacketByte] >>= 1; gbSgbPacket[gbSgbPacketNumber * 16 + gbSgbPacketByte] |= gbSgbBit; gbSgbPacketNBits++; if(!(gbSgbPacketNBits & 7)) { gbSgbPacketByte++; } gbSgbPacketTimeout = GBSGB_PACKET_TIMEOUT; } } } else { if(value == 0x20) gbSgbBit = 0x00; else gbSgbBit = 0x80; gbSgbPacketTimeout = GBSGB_PACKET_TIMEOUT; } gbSgbReadingController = 0; break; default: gbSgbPacketState = GBSGB_NONE; gbSgbPacketTimeout = 0; break; } } variable_desc gbSgbSaveStruct[] = { { &gbSgbMask, sizeof(int) }, { &gbSgbPacketState, sizeof(int) }, { &gbSgbBit, sizeof(int) }, { &gbSgbPacketNBits, sizeof(int) }, { &gbSgbPacketByte, sizeof(int) }, { &gbSgbPacketNumber, sizeof(int) }, { &gbSgbMultiplayer, sizeof(int) }, { &gbSgbNextController, sizeof(u8) }, { &gbSgbReadingController, sizeof(u8) }, { NULL, 0 } }; variable_desc gbSgbSaveStructV3[] = { { &gbSgbMask, sizeof(int) }, { &gbSgbPacketState, sizeof(int) }, { &gbSgbBit, sizeof(int) }, { &gbSgbPacketNBits, sizeof(int) }, { &gbSgbPacketByte, sizeof(int) }, { &gbSgbPacketNumber, sizeof(int) }, { &gbSgbMultiplayer, sizeof(int) }, { &gbSgbNextController, sizeof(u8) }, { &gbSgbReadingController, sizeof(u8) }, { &gbSgbFourPlayers, sizeof(int) }, { NULL, 0 } }; void gbSgbSaveGame(gzFile gzFile) { utilWriteData(gzFile, gbSgbSaveStructV3); utilGzWrite(gzFile, gbSgbBorder, 2048); utilGzWrite(gzFile, gbSgbBorderChar, 32*256); utilGzWrite(gzFile, gbSgbPacket, 16*7); utilGzWrite(gzFile, gbSgbSCPPalette, 4 * 512 * sizeof(u16)); utilGzWrite(gzFile, gbSgbATF, 20 * 18); utilGzWrite(gzFile, gbSgbATFList, 45 * 20 * 18); } void gbSgbReadGame(gzFile gzFile, int version) { if(version >= 3) utilReadData(gzFile, gbSgbSaveStructV3); else { utilReadData(gzFile, gbSgbSaveStruct); gbSgbFourPlayers = 0; } if(version >= 8) { utilGzRead(gzFile, gbSgbBorder, 2048); utilGzRead(gzFile, gbSgbBorderChar, 32*256); } utilGzRead(gzFile, gbSgbPacket, 16*7); utilGzRead(gzFile, gbSgbSCPPalette, 4 * 512 * sizeof(u16)); utilGzRead(gzFile, gbSgbATF, 20 * 18); utilGzRead(gzFile, gbSgbATFList, 45 * 20 * 18); }