////////////////////////////////////////////////////////////////////////// // Mapper023 Konami VRC2 type B // ////////////////////////////////////////////////////////////////////////// void Mapper023::Reset() { // addrmask = 0xFFFF; addrmask = 0xF003; for( INT i = 0; i < 8; i++ ) { reg[i] = i; } reg[8] = 0; irq_enable = 0; irq_counter = 0; irq_latch = 0; irq_clock = 0; reg[9] = 1; SetPROM_32K_Bank( 0, 1, PROM_8K_SIZE-2, PROM_8K_SIZE-1 ); SetVROM_8K_Bank( 0 ); // nes->SetRenderMethod( NES::POST_RENDER ); DWORD crc = nes->rom->GetPROM_CRC(); if( crc == 0x93794634 ) { // Akumajou Special Boku Dracula Kun(J) addrmask = 0xF00C; nes->SetRenderMethod( NES::PRE_ALL_RENDER ); } if( crc == 0xdd53c4ae ) { // Tiny Toon Adventures(J) nes->SetRenderMethod( NES::POST_ALL_RENDER ); } } void Mapper023::Write( WORD addr, BYTE data ) { DEBUGOUT( "MPRWR A=%04X D=%02X L=%3d CYC=%d\n", addr&0xFFFF, data&0xFF, nes->GetScanline(), nes->cpu->GetTotalCycles() ); switch( addr & addrmask ) { case 0x8000: case 0x8004: case 0x8008: case 0x800C: if(reg[8]) { SetPROM_8K_Bank( 6, data ); } else { SetPROM_8K_Bank( 4, data ); } break; case 0x9000: if( data != 0xFF ) { data &= 0x03; if( data == 0 ) SetVRAM_Mirror( VRAM_VMIRROR ); else if( data == 1 ) SetVRAM_Mirror( VRAM_HMIRROR ); else if( data == 2 ) SetVRAM_Mirror( VRAM_MIRROR4L ); else SetVRAM_Mirror( VRAM_MIRROR4H ); } break; case 0x9008: reg[8] = data & 0x02; break; case 0xA000: case 0xA004: case 0xA008: case 0xA00C: SetPROM_8K_Bank( 5, data ); break; case 0xB000: reg[0] = (reg[0] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 0, reg[0] ); break; case 0xB001: case 0xB004: reg[0] = (reg[0] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 0, reg[0] ); break; case 0xB002: case 0xB008: reg[1] = (reg[1] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 1, reg[1] ); break; case 0xB003: case 0xB00C: reg[1] = (reg[1] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 1, reg[1] ); break; case 0xC000: reg[2] = (reg[2] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 2, reg[2] ); break; case 0xC001: case 0xC004: reg[2] = (reg[2] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 2, reg[2] ); break; case 0xC002: case 0xC008: reg[3] = (reg[3] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 3, reg[3] ); break; case 0xC003: case 0xC00C: reg[3] = (reg[3] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 3, reg[3] ); break; case 0xD000: reg[4] = (reg[4] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 4, reg[4] ); break; case 0xD001: case 0xD004: reg[4] = (reg[4] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 4, reg[4] ); break; case 0xD002: case 0xD008: reg[5] = (reg[5] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 5, reg[5] ); break; case 0xD003: case 0xD00C: reg[5] = (reg[5] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 5, reg[5] ); break; case 0xE000: reg[6] = (reg[6] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 6, reg[6] ); break; case 0xE001: case 0xE004: reg[6] = (reg[6] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 6, reg[6] ); break; case 0xE002: case 0xE008: reg[7] = (reg[7] & 0xF0) | (data & 0x0F); SetVROM_1K_Bank( 7, reg[7] ); break; case 0xE003: case 0xE00C: reg[7] = (reg[7] & 0x0F) | ((data & 0x0F) << 4); SetVROM_1K_Bank( 7, reg[7] ); break; case 0xF000: irq_latch = (irq_latch & 0xF0) | (data & 0x0F); nes->cpu->ClrIRQ( IRQ_MAPPER ); break; case 0xF001: case 0xF004: irq_latch = (irq_latch & 0x0F) | ((data & 0x0F) << 4); nes->cpu->ClrIRQ( IRQ_MAPPER ); break; case 0xF002: case 0xF008: irq_enable = data & 0x03; irq_counter = irq_latch; irq_clock = 0; nes->cpu->ClrIRQ( IRQ_MAPPER ); break; case 0xF003: case 0xF00C: irq_enable = (irq_enable & 0x01) * 3; nes->cpu->ClrIRQ( IRQ_MAPPER ); break; } } void Mapper023::Clock( INT cycles ) { if( irq_enable & 0x02 ) { irq_clock += cycles*3; while( irq_clock >= 341 ) { irq_clock -= 341; irq_counter++; if( irq_counter == 0 ) { irq_counter = irq_latch; nes->cpu->SetIRQ( IRQ_MAPPER ); } } } } void Mapper023::SaveState( LPBYTE p ) { for( INT i = 0; i < 9; i++ ) { p[i] = reg[i]; } p[ 9] = irq_enable; p[10] = irq_counter; p[11] = irq_latch; *(INT*)&p[12] = irq_clock; } void Mapper023::LoadState( LPBYTE p ) { for( INT i = 0; i < 9; i++ ) { reg[i] = p[i]; } irq_enable = p[ 9]; irq_counter = p[10]; irq_latch = p[11]; irq_clock = *(INT*)&p[12]; }