#ifdef PPU_CPP void PPU::latch_counters() { regs.hcounter = cpu.hdot(); regs.vcounter = cpu.vcounter(); regs.counters_latched = true; } bool PPU::interlace() const { return display.interlace; } bool PPU::overscan() const { return display.overscan; } bool PPU::hires() const { return regs.pseudo_hires || regs.bgmode == 5 || regs.bgmode == 6; } uint16 PPU::get_vram_addr() { uint16 addr = regs.vram_addr; switch(regs.vram_mapping) { case 0: break; case 1: addr = (addr & 0xff00) | ((addr & 0x001f) << 3) | ((addr >> 5) & 7); break; case 2: addr = (addr & 0xfe00) | ((addr & 0x003f) << 3) | ((addr >> 6) & 7); break; case 3: addr = (addr & 0xfc00) | ((addr & 0x007f) << 3) | ((addr >> 7) & 7); break; } return (addr << 1); } uint8 PPU::vram_read(unsigned addr) { if(regs.display_disable) return memory::vram[addr]; if(cpu.vcounter() >= display.height) return memory::vram[addr]; return 0x00; } void PPU::vram_write(unsigned addr, uint8 data) { if(regs.display_disable || cpu.vcounter() >= display.height) { memory::vram[addr] = data; cache.tilevalid[0][addr >> 4] = false; cache.tilevalid[1][addr >> 5] = false; cache.tilevalid[2][addr >> 6] = false; return; } } uint8 PPU::oam_read(unsigned addr) { if(addr & 0x0200) addr &= 0x021f; if(regs.display_disable) return memory::oam[addr]; if(cpu.vcounter() >= display.height) return memory::oam[addr]; return memory::oam[0x0218]; } void PPU::oam_write(unsigned addr, uint8 data) { if(addr & 0x0200) addr &= 0x021f; if(!regs.display_disable && cpu.vcounter() < display.height) addr = 0x0218; memory::oam[addr] = data; oam.update_list(addr, data); } uint8 PPU::cgram_read(unsigned addr) { return memory::cgram[addr]; } void PPU::cgram_write(unsigned addr, uint8 data) { memory::cgram[addr] = data; } void PPU::mmio_update_video_mode() { switch(regs.bgmode) { case 0: { bg1.regs.mode = Background::Mode::BPP2; bg1.regs.priority0 = 8; bg1.regs.priority1 = 11; bg2.regs.mode = Background::Mode::BPP2; bg2.regs.priority0 = 7; bg2.regs.priority1 = 10; bg3.regs.mode = Background::Mode::BPP2; bg3.regs.priority0 = 2; bg3.regs.priority1 = 5; bg4.regs.mode = Background::Mode::BPP2; bg4.regs.priority0 = 1; bg4.regs.priority1 = 4; oam.regs.priority0 = 3; oam.regs.priority1 = 6; oam.regs.priority2 = 9; oam.regs.priority3 = 12; } break; case 1: { bg1.regs.mode = Background::Mode::BPP4; bg2.regs.mode = Background::Mode::BPP4; bg3.regs.mode = Background::Mode::BPP2; bg4.regs.mode = Background::Mode::Inactive; if(regs.bg3_priority) { bg1.regs.priority0 = 5; bg1.regs.priority1 = 8; bg2.regs.priority0 = 4; bg2.regs.priority1 = 7; bg3.regs.priority0 = 1; bg3.regs.priority1 = 10; oam.regs.priority0 = 2; oam.regs.priority1 = 3; oam.regs.priority2 = 6; oam.regs.priority3 = 9; } else { bg1.regs.priority0 = 6; bg1.regs.priority1 = 9; bg2.regs.priority0 = 5; bg2.regs.priority1 = 8; bg3.regs.priority0 = 1; bg3.regs.priority1 = 3; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 7; oam.regs.priority3 = 10; } } break; case 2: { bg1.regs.mode = Background::Mode::BPP4; bg2.regs.mode = Background::Mode::BPP4; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 3; bg1.regs.priority1 = 7; bg2.regs.priority0 = 1; bg2.regs.priority1 = 5; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 6; oam.regs.priority3 = 8; } break; case 3: { bg1.regs.mode = Background::Mode::BPP8; bg2.regs.mode = Background::Mode::BPP4; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 3; bg1.regs.priority1 = 7; bg2.regs.priority0 = 1; bg2.regs.priority1 = 5; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 6; oam.regs.priority3 = 8; } break; case 4: { bg1.regs.mode = Background::Mode::BPP8; bg2.regs.mode = Background::Mode::BPP2; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 3; bg1.regs.priority1 = 7; bg2.regs.priority0 = 1; bg2.regs.priority1 = 5; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 6; oam.regs.priority3 = 8; } break; case 5: { bg1.regs.mode = Background::Mode::BPP4; bg2.regs.mode = Background::Mode::BPP2; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 3; bg1.regs.priority1 = 7; bg2.regs.priority0 = 1; bg2.regs.priority1 = 5; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 6; oam.regs.priority3 = 8; } break; case 6: { bg1.regs.mode = Background::Mode::BPP4; bg2.regs.mode = Background::Mode::Inactive; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 2; bg1.regs.priority1 = 5; oam.regs.priority0 = 1; oam.regs.priority1 = 3; oam.regs.priority2 = 4; oam.regs.priority3 = 6; } break; case 7: { if(regs.mode7_extbg == false) { bg1.regs.mode = Background::Mode::Mode7; bg2.regs.mode = Background::Mode::Inactive; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 2; bg1.regs.priority1 = 2; oam.regs.priority0 = 1; oam.regs.priority1 = 3; oam.regs.priority2 = 4; oam.regs.priority3 = 5; } else { bg1.regs.mode = Background::Mode::Mode7; bg2.regs.mode = Background::Mode::Mode7; bg3.regs.mode = Background::Mode::Inactive; bg4.regs.mode = Background::Mode::Inactive; bg1.regs.priority0 = 3; bg1.regs.priority1 = 3; bg2.regs.priority0 = 1; bg2.regs.priority1 = 5; oam.regs.priority0 = 2; oam.regs.priority1 = 4; oam.regs.priority2 = 6; oam.regs.priority3 = 7; } } break; } } uint8 PPU::mmio_read(unsigned addr) { cpu.synchronize_ppu(); switch(addr & 0x3f) { case 0x04: case 0x05: case 0x06: case 0x08: case 0x09: case 0x0a: case 0x14: case 0x15: case 0x16: case 0x18: case 0x19: case 0x1a: case 0x24: case 0x25: case 0x26: case 0x28: case 0x29: case 0x2a: { return regs.ppu1_mdr; } case 0x34: { //MPYL unsigned result = ((int16)regs.m7a * (int8)(regs.m7b >> 8)); regs.ppu1_mdr = result >> 0; return regs.ppu1_mdr; } case 0x35: { //MPYM unsigned result = ((int16)regs.m7a * (int8)(regs.m7b >> 8)); regs.ppu1_mdr = result >> 8; return regs.ppu1_mdr; } case 0x36: { //MPYH unsigned result = ((int16)regs.m7a * (int8)(regs.m7b >> 8)); regs.ppu1_mdr = result >> 16; return regs.ppu1_mdr; } case 0x37: { //SLHV if(cpu.pio() & 0x80) latch_counters(); return cpu.regs.mdr; } case 0x38: { //OAMDATAREAD regs.ppu1_mdr = oam_read(regs.oam_addr); regs.oam_addr = (regs.oam_addr + 1) & 0x03ff; oam.set_first(); return regs.ppu1_mdr; } case 0x39: { //VMDATALREAD regs.ppu1_mdr = regs.vram_readbuffer >> 0; if(regs.vram_incmode == 0) { uint16 addr = get_vram_addr(); regs.vram_readbuffer = vram_read(addr + 0) << 0; regs.vram_readbuffer |= vram_read(addr + 1) << 8; regs.vram_addr += regs.vram_incsize; } return regs.ppu1_mdr; } case 0x3a: { //VMDATAHREAD regs.ppu1_mdr = regs.vram_readbuffer >> 8; if(regs.vram_incmode == 1) { uint16 addr = get_vram_addr(); regs.vram_readbuffer = vram_read(addr + 0) << 0; regs.vram_readbuffer |= vram_read(addr + 1) << 8; regs.vram_addr += regs.vram_incsize; } return regs.ppu1_mdr; } case 0x3b: { //CGDATAREAD if((regs.cgram_addr & 1) == 0) { regs.ppu2_mdr = cgram_read(regs.cgram_addr); } else { regs.ppu2_mdr = (regs.ppu2_mdr & 0x80) | (cgram_read(regs.cgram_addr) & 0x7f); } regs.cgram_addr = (regs.cgram_addr + 1) & 0x01ff; return regs.ppu2_mdr; } case 0x3c: { //OPHCT if(regs.latch_hcounter == 0) { regs.ppu2_mdr = regs.hcounter & 0xff; } else { regs.ppu2_mdr = (regs.ppu2_mdr & 0xfe) | (regs.hcounter >> 8); } regs.latch_hcounter ^= 1; return regs.ppu2_mdr; } case 0x3d: { //OPVCT if(regs.latch_vcounter == 0) { regs.ppu2_mdr = regs.vcounter & 0xff; } else { regs.ppu2_mdr = (regs.ppu2_mdr & 0xfe) | (regs.vcounter >> 8); } regs.latch_vcounter ^= 1; return regs.ppu2_mdr; } case 0x3e: { //STAT77 regs.ppu1_mdr &= 0x10; regs.ppu1_mdr |= oam.regs.time_over << 7; regs.ppu1_mdr |= oam.regs.range_over << 6; regs.ppu1_mdr |= 0x01; //version return regs.ppu1_mdr; } case 0x3f: { //STAT78 regs.latch_hcounter = 0; regs.latch_vcounter = 0; regs.ppu2_mdr &= 0x20; regs.ppu2_mdr |= cpu.field() << 7; if((cpu.pio() & 0x80) == 0) { regs.ppu2_mdr |= 0x40; } else if(regs.counters_latched) { regs.ppu2_mdr |= 0x40; regs.counters_latched = false; } regs.ppu2_mdr |= (system.region() == System::Region::NTSC ? 0 : 1) << 4; regs.ppu2_mdr |= 0x03; //version return regs.ppu2_mdr; } } return cpu.regs.mdr; } void PPU::mmio_write(unsigned addr, uint8 data) { cpu.synchronize_ppu(); switch(addr & 0x3f) { case 0x00: { //INIDISP if(regs.display_disable && cpu.vcounter() == display.height) oam.address_reset(); regs.display_disable = data & 0x80; regs.display_brightness = data & 0x0f; return; } case 0x01: { //OBSEL oam.regs.base_size = (data >> 5) & 7; oam.regs.nameselect = (data >> 3) & 3; oam.regs.tiledata_addr = (data & 3) << 14; oam.list_valid = false; return; } case 0x02: { //OAMADDL regs.oam_baseaddr = (regs.oam_baseaddr & 0x0100) | (data << 0); oam.address_reset(); return; } case 0x03: { //OAMADDH regs.oam_priority = data & 0x80; regs.oam_baseaddr = ((data & 1) << 8) | (regs.oam_baseaddr & 0x00ff); oam.address_reset(); return; } case 0x04: { //OAMDATA if((regs.oam_addr & 1) == 0) regs.oam_latchdata = data; if(regs.oam_addr & 0x0200) { oam_write(regs.oam_addr, data); } else if((regs.oam_addr & 1) == 1) { oam_write((regs.oam_addr & ~1) + 0, regs.oam_latchdata); oam_write((regs.oam_addr & ~1) + 1, data); } regs.oam_addr = (regs.oam_addr + 1) & 0x03ff; oam.set_first(); return; } case 0x05: { //BGMODE bg4.regs.tile_size = data & 0x80; bg3.regs.tile_size = data & 0x40; bg2.regs.tile_size = data & 0x20; bg1.regs.tile_size = data & 0x10; regs.bg3_priority = data & 0x08; regs.bgmode = data & 0x07; mmio_update_video_mode(); return; } case 0x06: { //MOSAIC unsigned mosaic_size = (data >> 4) & 15; bg4.regs.mosaic = (data & 0x08 ? mosaic_size : 0); bg3.regs.mosaic = (data & 0x04 ? mosaic_size : 0); bg2.regs.mosaic = (data & 0x02 ? mosaic_size : 0); bg1.regs.mosaic = (data & 0x01 ? mosaic_size : 0); return; } case 0x07: { //BG1SC bg1.regs.screen_addr = (data & 0x7c) << 9; bg1.regs.screen_size = data & 3; return; } case 0x08: { //BG2SC bg2.regs.screen_addr = (data & 0x7c) << 9; bg2.regs.screen_size = data & 3; return; } case 0x09: { //BG3SC bg3.regs.screen_addr = (data & 0x7c) << 9; bg3.regs.screen_size = data & 3; return; } case 0x0a: { //BG4SC bg4.regs.screen_addr = (data & 0x7c) << 9; bg4.regs.screen_size = data & 3; return; } case 0x0b: { //BG12NBA bg1.regs.tiledata_addr = (data & 0x07) << 13; bg2.regs.tiledata_addr = (data & 0x70) << 9; return; } case 0x0c: { //BG34NBA bg3.regs.tiledata_addr = (data & 0x07) << 13; bg4.regs.tiledata_addr = (data & 0x70) << 9; return; } case 0x0d: { //BG1HOFS regs.mode7_hoffset = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; bg1.regs.hoffset = (data << 8) | (regs.bgofs_ppu1latchdata & ~7) | (regs.bgofs_ppu2latchdata & 7); regs.bgofs_ppu1latchdata = data; regs.bgofs_ppu2latchdata = data; return; } case 0x0e: { //BG1VOFS regs.mode7_voffset = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; bg1.regs.voffset = (data << 8) | regs.bgofs_ppu1latchdata; regs.bgofs_ppu1latchdata = data; return; } case 0x0f: { //BG2HOFS bg2.regs.hoffset = (data << 8) | (regs.bgofs_ppu1latchdata & ~7) | (regs.bgofs_ppu2latchdata & 7); regs.bgofs_ppu1latchdata = data; regs.bgofs_ppu2latchdata = data; return; } case 0x10: { //BG2VOFS bg2.regs.voffset = (data << 8) | regs.bgofs_ppu1latchdata; regs.bgofs_ppu1latchdata = data; return; } case 0x11: { //BG3HOFS bg3.regs.hoffset = (data << 8) | (regs.bgofs_ppu1latchdata & ~7) | (regs.bgofs_ppu2latchdata & 7); regs.bgofs_ppu1latchdata = data; regs.bgofs_ppu2latchdata = data; return; } case 0x12: { //BG3VOFS bg3.regs.voffset = (data << 8) | regs.bgofs_ppu1latchdata; regs.bgofs_ppu1latchdata = data; return; } case 0x13: { //BG4HOFS bg4.regs.hoffset = (data << 8) | (regs.bgofs_ppu1latchdata & ~7) | (regs.bgofs_ppu2latchdata & 7); regs.bgofs_ppu1latchdata = data; regs.bgofs_ppu2latchdata = data; return; } case 0x14: { //BG4VOFS bg4.regs.voffset = (data << 8) | regs.bgofs_ppu1latchdata; regs.bgofs_ppu1latchdata = data; return; } case 0x15: { //VMAIN regs.vram_incmode = data & 0x80; regs.vram_mapping = (data >> 2) & 3; switch(data & 3) { case 0: regs.vram_incsize = 1; break; case 1: regs.vram_incsize = 32; break; case 2: regs.vram_incsize = 128; break; case 3: regs.vram_incsize = 128; break; } return; } case 0x16: { //VMADDL regs.vram_addr = (regs.vram_addr & 0xff00) | (data << 0); uint16 addr = get_vram_addr(); regs.vram_readbuffer = vram_read(addr + 0) << 0; regs.vram_readbuffer |= vram_read(addr + 1) << 8; return; } case 0x17: { //VMADDH regs.vram_addr = (data << 8) | (regs.vram_addr & 0x00ff); uint16 addr = get_vram_addr(); regs.vram_readbuffer = vram_read(addr + 0) << 0; regs.vram_readbuffer |= vram_read(addr + 1) << 8; return; } case 0x18: { //VMDATAL vram_write(get_vram_addr() + 0, data); if(regs.vram_incmode == 0) regs.vram_addr += regs.vram_incsize; return; } case 0x19: { //VMDATAH vram_write(get_vram_addr() + 1, data); if(regs.vram_incmode == 1) regs.vram_addr += regs.vram_incsize; return; } case 0x1a: { //M7SEL regs.mode7_repeat = (data >> 6) & 3; regs.mode7_vflip = data & 0x02; regs.mode7_hflip = data & 0x01; return; } case 0x1b: { //M7A regs.m7a = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x1c: { //M7B regs.m7b = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x1d: { //M7C regs.m7c = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x1e: { //M7D regs.m7d = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x1f: { //M7X regs.m7x = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x20: { //M7Y regs.m7y = (data << 8) | regs.mode7_latchdata; regs.mode7_latchdata = data; return; } case 0x21: { //CGADD regs.cgram_addr = data << 1; return; } case 0x22: { //CGDATA if((regs.cgram_addr & 1) == 0) { regs.cgram_latchdata = data; } else { cgram_write((regs.cgram_addr & ~1) + 0, regs.cgram_latchdata); cgram_write((regs.cgram_addr & ~1) + 1, data & 0x7f); } regs.cgram_addr = (regs.cgram_addr + 1) & 0x01ff; return; } case 0x23: { //W12SEL bg2.window.two_enable = data & 0x80; bg2.window.two_invert = data & 0x40; bg2.window.one_enable = data & 0x20; bg2.window.one_invert = data & 0x10; bg1.window.two_enable = data & 0x08; bg1.window.two_invert = data & 0x04; bg1.window.one_enable = data & 0x02; bg1.window.one_invert = data & 0x01; return; } case 0x24: { //W34SEL bg4.window.two_enable = data & 0x80; bg4.window.two_invert = data & 0x40; bg4.window.one_enable = data & 0x20; bg4.window.one_invert = data & 0x10; bg3.window.two_enable = data & 0x08; bg3.window.two_invert = data & 0x04; bg3.window.one_enable = data & 0x02; bg3.window.one_invert = data & 0x01; return; } case 0x25: { //WOBJSEL screen.window.two_enable = data & 0x80; screen.window.two_invert = data & 0x40; screen.window.one_enable = data & 0x20; screen.window.one_invert = data & 0x10; oam.window.two_enable = data & 0x08; oam.window.two_invert = data & 0x04; oam.window.one_enable = data & 0x02; oam.window.one_invert = data & 0x01; return; } case 0x26: { //WH0 regs.window_one_left = data; return; } case 0x27: { //WH1 regs.window_one_right = data; return; } case 0x28: { //WH2 regs.window_two_left = data; return; } case 0x29: { //WH3 regs.window_two_right = data; return; } case 0x2a: { //WBGLOG bg4.window.mask = (data >> 6) & 3; bg3.window.mask = (data >> 4) & 3; bg2.window.mask = (data >> 2) & 3; bg1.window.mask = (data >> 0) & 3; return; } case 0x2b: { //WOBJLOG screen.window.mask = (data >> 2) & 3; oam.window.mask = (data >> 0) & 3; return; } case 0x2c: { //TM oam.regs.main_enable = data & 0x10; bg4.regs.main_enable = data & 0x08; bg3.regs.main_enable = data & 0x04; bg2.regs.main_enable = data & 0x02; bg1.regs.main_enable = data & 0x01; return; } case 0x2d: { //TS oam.regs.sub_enable = data & 0x10; bg4.regs.sub_enable = data & 0x08; bg3.regs.sub_enable = data & 0x04; bg2.regs.sub_enable = data & 0x02; bg1.regs.sub_enable = data & 0x01; return; } case 0x2e: { //TMW oam.window.main_enable = data & 0x10; bg4.window.main_enable = data & 0x08; bg3.window.main_enable = data & 0x04; bg2.window.main_enable = data & 0x02; bg1.window.main_enable = data & 0x01; return; } case 0x2f: { //TSW oam.window.sub_enable = data & 0x10; bg4.window.sub_enable = data & 0x08; bg3.window.sub_enable = data & 0x04; bg2.window.sub_enable = data & 0x02; bg1.window.sub_enable = data & 0x01; return; } case 0x30: { //CGWSEL screen.window.main_mask = (data >> 6) & 3; screen.window.sub_mask = (data >> 4) & 3; screen.regs.addsub_mode = data & 0x02; screen.regs.direct_color = data & 0x01; return; } case 0x31: { //CGADDSUB screen.regs.color_mode = data & 0x80; screen.regs.color_halve = data & 0x40; screen.regs.color_enable[6] = data & 0x20; screen.regs.color_enable[5] = data & 0x10; screen.regs.color_enable[4] = data & 0x10; screen.regs.color_enable[3] = data & 0x08; screen.regs.color_enable[2] = data & 0x04; screen.regs.color_enable[1] = data & 0x02; screen.regs.color_enable[0] = data & 0x01; return; } case 0x32: { //COLDATA if(data & 0x80) screen.regs.color_b = data & 0x1f; if(data & 0x40) screen.regs.color_g = data & 0x1f; if(data & 0x20) screen.regs.color_r = data & 0x1f; screen.regs.color = (screen.regs.color_b << 10) | (screen.regs.color_g << 5) | (screen.regs.color_r << 0); return; } case 0x33: { //SETINI regs.mode7_extbg = data & 0x40; regs.pseudo_hires = data & 0x08; regs.overscan = data & 0x04; oam.regs.interlace = data & 0x02; regs.interlace = data & 0x01; mmio_update_video_mode(); oam.list_valid = false; return; } } } void PPU::mmio_reset() { //internal regs.ppu1_mdr = 0; regs.ppu2_mdr = 0; regs.vram_readbuffer = 0; regs.oam_latchdata = 0; regs.cgram_latchdata = 0; regs.bgofs_ppu1latchdata = 0; regs.bgofs_ppu2latchdata = 0; regs.mode7_latchdata = 0; regs.counters_latched = 0; regs.latch_hcounter = 0; regs.latch_vcounter = 0; oam.regs.first_sprite = 0; oam.list_valid = false; //$2100 regs.display_disable = true; regs.display_brightness = 0; //$2101 oam.regs.base_size = 0; oam.regs.nameselect = 0; oam.regs.tiledata_addr = 0; //$2102-$2103 regs.oam_baseaddr = 0; regs.oam_addr = 0; regs.oam_priority = 0; //$2105 bg4.regs.tile_size = 0; bg3.regs.tile_size = 0; bg2.regs.tile_size = 0; bg1.regs.tile_size = 0; regs.bg3_priority = 0; regs.bgmode = 0; //$2106 bg4.regs.mosaic = 0; bg3.regs.mosaic = 0; bg2.regs.mosaic = 0; bg1.regs.mosaic = 0; //$2107-$210a bg1.regs.screen_addr = 0; bg1.regs.screen_size = 0; bg2.regs.screen_addr = 0; bg2.regs.screen_size = 0; bg3.regs.screen_addr = 0; bg3.regs.screen_size = 0; bg4.regs.screen_addr = 0; bg4.regs.screen_size = 0; //$210b-$210c bg1.regs.tiledata_addr = 0; bg2.regs.tiledata_addr = 0; bg3.regs.tiledata_addr = 0; bg4.regs.tiledata_addr = 0; //$210d-$2114 regs.mode7_hoffset = 0; regs.mode7_voffset = 0; bg1.regs.hoffset = 0; bg1.regs.voffset = 0; bg2.regs.hoffset = 0; bg2.regs.voffset = 0; bg3.regs.hoffset = 0; bg3.regs.voffset = 0; bg4.regs.hoffset = 0; bg4.regs.voffset = 0; //$2115 regs.vram_incmode = 0; regs.vram_mapping = 0; regs.vram_incsize = 1; //$2116-$2117 regs.vram_addr = 0; //$211a regs.mode7_repeat = 0; regs.mode7_vflip = 0; regs.mode7_hflip = 0; //$211b-$2120 regs.m7a = 0; regs.m7b = 0; regs.m7c = 0; regs.m7d = 0; regs.m7x = 0; regs.m7y = 0; //$2121 regs.cgram_addr = 0; //$2123-$2125 bg1.window.one_enable = 0; bg1.window.one_invert = 0; bg1.window.two_enable = 0; bg1.window.two_invert = 0; bg2.window.one_enable = 0; bg2.window.one_invert = 0; bg2.window.two_enable = 0; bg2.window.two_invert = 0; bg3.window.one_enable = 0; bg3.window.one_invert = 0; bg3.window.two_enable = 0; bg3.window.two_invert = 0; bg4.window.one_enable = 0; bg4.window.one_invert = 0; bg4.window.two_enable = 0; bg4.window.two_invert = 0; oam.window.one_enable = 0; oam.window.one_invert = 0; oam.window.two_enable = 0; oam.window.two_invert = 0; screen.window.one_enable = 0; screen.window.one_invert = 0; screen.window.two_enable = 0; screen.window.two_invert = 0; //$2126-$2129 regs.window_one_left = 0; regs.window_one_right = 0; regs.window_two_left = 0; regs.window_two_right = 0; //$212a-$212b bg1.window.mask = 0; bg2.window.mask = 0; bg3.window.mask = 0; bg4.window.mask = 0; oam.window.mask = 0; screen.window.mask = 0; //$212c bg1.regs.main_enable = 0; bg2.regs.main_enable = 0; bg3.regs.main_enable = 0; bg4.regs.main_enable = 0; oam.regs.main_enable = 0; //$212d bg1.regs.sub_enable = 0; bg2.regs.sub_enable = 0; bg3.regs.sub_enable = 0; bg4.regs.sub_enable = 0; oam.regs.sub_enable = 0; //$212e bg1.window.main_enable = 0; bg2.window.main_enable = 0; bg3.window.main_enable = 0; bg4.window.main_enable = 0; oam.window.main_enable = 0; //$212f bg1.window.sub_enable = 0; bg2.window.sub_enable = 0; bg3.window.sub_enable = 0; bg4.window.sub_enable = 0; oam.window.sub_enable = 0; //$2130 screen.window.main_mask = 0; screen.window.sub_mask = 0; screen.regs.addsub_mode = 0; screen.regs.direct_color = 0; //$2131 screen.regs.color_mode = 0; screen.regs.color_halve = 0; screen.regs.color_enable[6] = 0; screen.regs.color_enable[5] = 0; screen.regs.color_enable[4] = 0; screen.regs.color_enable[3] = 0; screen.regs.color_enable[2] = 0; screen.regs.color_enable[1] = 0; screen.regs.color_enable[0] = 0; //$2132 screen.regs.color_b = 0; screen.regs.color_g = 0; screen.regs.color_r = 0; screen.regs.color = 0; //$2133 regs.mode7_extbg = 0; regs.pseudo_hires = 0; regs.overscan = 0; oam.regs.interlace = 0; regs.interlace = 0; //$213e oam.regs.time_over = 0; oam.regs.range_over = 0; mmio_update_video_mode(); } #endif