auto VDP::read(uint24 addr) -> uint16 { switch(addr & 0xc0001e) { //data port case 0xc00000: case 0xc00002: { return readDataPort(); } //control port case 0xc00004: case 0xc00006: { return readControlPort(); } //counter case 0xc00008: case 0xc0000a: case 0xc0000c: case 0xc0000e: { return state.vcounter << 8 | (state.hdot >> 1) << 0; } } return 0x0000; } auto VDP::write(uint24 addr, uint16 data) -> void { switch(addr & 0xc0001e) { //data port case 0xc00000: case 0xc00002: { return writeDataPort(data); } //control port case 0xc00004: case 0xc00006: { return writeControlPort(data); } } } // auto VDP::readDataPort() -> uint16 { io.commandPending = false; //VRAM read if(io.command.bits(0,3) == 0) { auto address = io.address.bits(1,15); auto data = vram.read(address); io.address += io.dataIncrement; return data; } //VSRAM read if(io.command.bits(0,3) == 4) { auto address = io.address.bits(1,6); auto data = vsram.read(address); io.address += io.dataIncrement; return data; } //CRAM read if(io.command.bits(0,3) == 8) { auto address = io.address.bits(1,6); auto data = cram.read(address); io.address += io.dataIncrement; return data.bits(0,2) << 1 | data.bits(3,5) << 5 | data.bits(6,8) << 9; } return 0x0000; } auto VDP::writeDataPort(uint16 data) -> void { io.commandPending = false; //DMA VRAM fill if(dma.io.wait) { dma.io.wait = false; dma.io.fill = data >> 8; //falls through to memory write //causes extra transfer to occur on VRAM fill operations } //VRAM write if(io.command.bits(0,3) == 1) { auto address = io.address.bits(1,15); if(io.address.bit(0)) data = data >> 8 | data << 8; vram.write(address, data); io.address += io.dataIncrement; return; } //VSRAM write if(io.command.bits(0,3) == 5) { auto address = io.address.bits(1,6); //data format: ---- --yy yyyy yyyy vsram.write(address, data.bits(0,9)); io.address += io.dataIncrement; return; } //CRAM write if(io.command.bits(0,3) == 3) { auto address = io.address.bits(1,6); //data format: ---- bbb- ggg- rrr- cram.write(address, data.bits(1,3) << 0 | data.bits(5,7) << 3 | data.bits(9,11) << 6); io.address += io.dataIncrement; return; } } // auto VDP::readControlPort() -> uint16 { io.commandPending = false; uint16 result = 0b0011'0100'0000'0000; result |= 1 << 9; //FIFO empty result |= (state.vcounter >= screenHeight()) << 3; //vertical blank result |= (state.hcounter >= 1280) << 2; //horizontal blank result |= io.command.bit(5) << 1; //DMA active result |= Region::PAL() << 0; return result; } auto VDP::writeControlPort(uint16 data) -> void { //print("[VDPC] ", hex(data, 4L), "\n"); //command write (lo) if(io.commandPending) { io.commandPending = false; io.command.bits(2,5) = data.bits(4,7); io.address.bits(14,15) = data.bits(0,1); if(!dma.io.enable) io.command.bit(5) = 0; if(dma.io.mode == 3) dma.io.wait = false; return; } //command write (hi) if(data.bits(14,15) != 2) { io.commandPending = true; io.command.bits(0,1) = data.bits(14,15); io.address.bits(0,13) = data.bits(0,13); return; } //register write (d13 is ignored) if(data.bits(14,15) == 2) switch(data.bits(8,12)) { //mode register 1 case 0x00: { io.displayOverlayEnable = data.bit(0); io.counterLatch = data.bit(1); io.horizontalBlankInterruptEnable = data.bit(4); io.leftColumnBlank = data.bit(5); return; } //mode register 2 case 0x01: { io.videoMode = data.bit(2); io.overscan = data.bit(3); dma.io.enable = data.bit(4); io.verticalBlankInterruptEnable = data.bit(5); io.displayEnable = data.bit(6); io.externalVRAM = data.bit(7); if(!dma.io.enable) io.command.bit(5) = 0; return; } //plane A name table location case 0x02: { planeA.io.nametableAddress = data.bits(3,6) << 12; return; } //window name table location case 0x03: { window.io.nametableAddress = data.bits(1,6) << 10; return; } //plane B name table location case 0x04: { planeB.io.nametableAddress = data.bits(0,3) << 12; return; } //sprite attribute table location case 0x05: { sprite.io.attributeAddress = data.bits(0,7) << 8; return; } //sprite pattern base address case 0x06: { sprite.io.nametableAddressBase = data.bit(5); return; } //background color case 0x07: { io.backgroundColor = data.bits(0,5); return; } //horizontal interrupt counter case 0x0a: { io.horizontalInterruptCounter = data.bits(0,7); return; } //mode register 3 case 0x0b: { planeA.io.horizontalScrollMode = data.bits(0,1); planeB.io.horizontalScrollMode = data.bits(0,1); planeA.io.verticalScrollMode = data.bit(2); planeB.io.verticalScrollMode = data.bit(2); io.externalInterruptEnable = data.bit(3); return; } //mode register 4 case 0x0c: { io.displayWidth = data.bit(0) | data.bit(7) << 1; io.interlaceMode = data.bits(1,2); io.shadowHighlightEnable = data.bit(3); io.externalColorEnable = data.bit(4); io.horizontalSync = data.bit(5); io.verticalSync = data.bit(6); return; } //horizontal scroll data location case 0x0d: { planeA.io.horizontalScrollAddress = data.bits(0,6) << 9; planeB.io.horizontalScrollAddress = data.bits(0,6) << 9; return; } //nametable pattern base address case 0x0e: { io.nametableBasePatternA = data.bit(0); io.nametableBasePatternB = data.bit(1); return; } //data port auto-increment value case 0x0f: { io.dataIncrement = data.bits(0,7); return; } //plane size case 0x10: { planeA.io.nametableWidth = data.bits(0,1); planeB.io.nametableWidth = data.bits(0,1); planeA.io.nametableHeight = data.bits(4,5); planeB.io.nametableHeight = data.bits(4,5); return; } //window plane horizontal position case 0x11: { window.io.horizontalDirection = data.bit(7); window.io.horizontalOffset = data.bits(0,4) << 4; return; } //window plane vertical position case 0x12: { window.io.verticalDirection = data.bit(7); window.io.verticalOffset = data.bits(0,4) << 3; return; } //DMA length case 0x13: { dma.io.length.bits(0,7) = data.bits(0,7); return; } //DMA length case 0x14: { dma.io.length.bits(8,15) = data.bits(0,7); return; } //DMA source case 0x15: { dma.io.source.bits(0,7) = data.bits(0,7); return; } //DMA source case 0x16: { dma.io.source.bits(8,15) = data.bits(0,7); return; } //DMA source case 0x17: { dma.io.source.bits(16,21) = data.bits(0,5); dma.io.mode = data.bits(6,7); dma.io.wait = dma.io.mode.bit(1); return; } //unused default: { return; } } }