#include #define PPU_CPP namespace SNES { #if defined(DEBUGGER) #include "debugger/debugger.cpp" PPUDebugger ppu; #else PPU ppu; #endif #include "memory/memory.cpp" #include "mmio/mmio.cpp" #include "render/render.cpp" #include "serialization.cpp" void PPU::step(unsigned clocks) { clock += clocks; } void PPU::synchronize_cpu() { if(CPU::Threaded == true) { if(clock >= 0 && scheduler.sync != Scheduler::SynchronizeMode::All) co_switch(cpu.thread); } else { while(clock >= 0) cpu.enter(); } } void PPU::Enter() { ppu.enter(); } void PPU::enter() { while(true) { if(scheduler.sync == Scheduler::SynchronizeMode::All) { scheduler.exit(Scheduler::ExitReason::SynchronizeEvent); } //H = 0 (initialize) scanline(); add_clocks(10); //H = 10 (cache mode7 registers + OAM address reset) cache.m7_hofs = regs.m7_hofs; cache.m7_vofs = regs.m7_vofs; cache.m7a = regs.m7a; cache.m7b = regs.m7b; cache.m7c = regs.m7c; cache.m7d = regs.m7d; cache.m7x = regs.m7x; cache.m7y = regs.m7y; if(vcounter() == (!overscan() ? 225 : 240)) { if(regs.display_disabled == false) { regs.oam_addr = regs.oam_baseaddr << 1; regs.oam_firstsprite = (regs.oam_priority == false) ? 0 : (regs.oam_addr >> 2) & 127; } } add_clocks(502); //H = 512 (render) render_scanline(); add_clocks(640); //H = 1152 (cache OBSEL) if(cache.oam_basesize != regs.oam_basesize) { cache.oam_basesize = regs.oam_basesize; sprite_list_valid = false; } cache.oam_nameselect = regs.oam_nameselect; cache.oam_tdaddr = regs.oam_tdaddr; add_clocks(lineclocks() - 1152); //seek to start of next scanline } } void PPU::add_clocks(unsigned clocks) { tick(clocks); step(clocks); synchronize_cpu(); } void PPU::scanline() { line = vcounter(); if(line == 0) { frame(); //RTO flag reset regs.time_over = false; regs.range_over = false; } if(line == 1) { //mosaic reset for(int bg = BG1; bg <= BG4; bg++) regs.bg_y[bg] = 1; regs.mosaic_countdown = regs.mosaic_size + 1; regs.mosaic_countdown--; } else { for(int bg = BG1; bg <= BG4; bg++) { if(!regs.mosaic_enabled[bg] || !regs.mosaic_countdown) regs.bg_y[bg] = line; } if(!regs.mosaic_countdown) regs.mosaic_countdown = regs.mosaic_size + 1; regs.mosaic_countdown--; } } void PPU::render_scanline() { if(line >= 1 && line < (!overscan() ? 225 : 240)) { render_line_oam_rto(); render_line(); } } void PPU::frame() { system.frame(); if(field() == 0) { display.interlace = regs.interlace; regs.scanlines = (regs.overscan == false) ? 224 : 239; } } void PPU::power() { ppu1_version = config.ppu1.version; ppu2_version = config.ppu2.version; for(unsigned i = 0; i < memory::vram.size(); i++) memory::vram[i] = 0x00; for(unsigned i = 0; i < memory::oam.size(); i++) memory::oam[i] = 0x00; for(unsigned i = 0; i < memory::cgram.size(); i++) memory::cgram[i] = 0x00; flush_tiledata_cache(); region = (system.region() == System::Region::NTSC ? 0 : 1); //0 = NTSC, 1 = PAL regs.ioamaddr = 0x0000; regs.icgramaddr = 0x01ff; //$2100 regs.display_disabled = true; regs.display_brightness = 15; //$2101 regs.oam_basesize = 0; regs.oam_nameselect = 0; regs.oam_tdaddr = 0x0000; cache.oam_basesize = 0; cache.oam_nameselect = 0; cache.oam_tdaddr = 0x0000; //$2102-$2103 regs.oam_baseaddr = 0x0000; regs.oam_addr = 0x0000; regs.oam_priority = false; regs.oam_firstsprite = 0; //$2104 regs.oam_latchdata = 0x00; //$2105 regs.bg_tilesize[BG1] = 0; regs.bg_tilesize[BG2] = 0; regs.bg_tilesize[BG3] = 0; regs.bg_tilesize[BG4] = 0; regs.bg3_priority = 0; regs.bg_mode = 0; //$2106 regs.mosaic_size = 0; regs.mosaic_enabled[BG1] = false; regs.mosaic_enabled[BG2] = false; regs.mosaic_enabled[BG3] = false; regs.mosaic_enabled[BG4] = false; regs.mosaic_countdown = 0; //$2107-$210a regs.bg_scaddr[BG1] = 0x0000; regs.bg_scaddr[BG2] = 0x0000; regs.bg_scaddr[BG3] = 0x0000; regs.bg_scaddr[BG4] = 0x0000; regs.bg_scsize[BG1] = SC_32x32; regs.bg_scsize[BG2] = SC_32x32; regs.bg_scsize[BG3] = SC_32x32; regs.bg_scsize[BG4] = SC_32x32; //$210b-$210c regs.bg_tdaddr[BG1] = 0x0000; regs.bg_tdaddr[BG2] = 0x0000; regs.bg_tdaddr[BG3] = 0x0000; regs.bg_tdaddr[BG4] = 0x0000; //$210d-$2114 regs.bg_ofslatch = 0x00; regs.m7_hofs = regs.m7_vofs = 0x0000; regs.bg_hofs[BG1] = regs.bg_vofs[BG1] = 0x0000; regs.bg_hofs[BG2] = regs.bg_vofs[BG2] = 0x0000; regs.bg_hofs[BG3] = regs.bg_vofs[BG3] = 0x0000; regs.bg_hofs[BG4] = regs.bg_vofs[BG4] = 0x0000; //$2115 regs.vram_incmode = 1; regs.vram_mapping = 0; regs.vram_incsize = 1; //$2116-$2117 regs.vram_addr = 0x0000; //$211a regs.mode7_repeat = 0; regs.mode7_vflip = false; regs.mode7_hflip = false; //$211b-$2120 regs.m7_latch = 0x00; regs.m7a = 0x0000; regs.m7b = 0x0000; regs.m7c = 0x0000; regs.m7d = 0x0000; regs.m7x = 0x0000; regs.m7y = 0x0000; //$2121 regs.cgram_addr = 0x0000; //$2122 regs.cgram_latchdata = 0x00; //$2123-$2125 regs.window1_enabled[BG1] = false; regs.window1_enabled[BG2] = false; regs.window1_enabled[BG3] = false; regs.window1_enabled[BG4] = false; regs.window1_enabled[OAM] = false; regs.window1_enabled[COL] = false; regs.window1_invert [BG1] = false; regs.window1_invert [BG2] = false; regs.window1_invert [BG3] = false; regs.window1_invert [BG4] = false; regs.window1_invert [OAM] = false; regs.window1_invert [COL] = false; regs.window2_enabled[BG1] = false; regs.window2_enabled[BG2] = false; regs.window2_enabled[BG3] = false; regs.window2_enabled[BG4] = false; regs.window2_enabled[OAM] = false; regs.window2_enabled[COL] = false; regs.window2_invert [BG1] = false; regs.window2_invert [BG2] = false; regs.window2_invert [BG3] = false; regs.window2_invert [BG4] = false; regs.window2_invert [OAM] = false; regs.window2_invert [COL] = false; //$2126-$2129 regs.window1_left = 0x00; regs.window1_right = 0x00; regs.window2_left = 0x00; regs.window2_right = 0x00; //$212a-$212b regs.window_mask[BG1] = 0; regs.window_mask[BG2] = 0; regs.window_mask[BG3] = 0; regs.window_mask[BG4] = 0; regs.window_mask[OAM] = 0; regs.window_mask[COL] = 0; //$212c-$212d regs.bg_enabled[BG1] = false; regs.bg_enabled[BG2] = false; regs.bg_enabled[BG3] = false; regs.bg_enabled[BG4] = false; regs.bg_enabled[OAM] = false; regs.bgsub_enabled[BG1] = false; regs.bgsub_enabled[BG2] = false; regs.bgsub_enabled[BG3] = false; regs.bgsub_enabled[BG4] = false; regs.bgsub_enabled[OAM] = false; //$212e-$212f regs.window_enabled[BG1] = false; regs.window_enabled[BG2] = false; regs.window_enabled[BG3] = false; regs.window_enabled[BG4] = false; regs.window_enabled[OAM] = false; regs.sub_window_enabled[BG1] = false; regs.sub_window_enabled[BG2] = false; regs.sub_window_enabled[BG3] = false; regs.sub_window_enabled[BG4] = false; regs.sub_window_enabled[OAM] = false; //$2130 regs.color_mask = 0; regs.colorsub_mask = 0; regs.addsub_mode = false; regs.direct_color = false; //$2131 regs.color_mode = 0; regs.color_halve = false; regs.color_enabled[BACK] = false; regs.color_enabled[OAM] = false; regs.color_enabled[BG4] = false; regs.color_enabled[BG3] = false; regs.color_enabled[BG2] = false; regs.color_enabled[BG1] = false; //$2132 regs.color_r = 0x00; regs.color_g = 0x00; regs.color_b = 0x00; regs.color_rgb = 0x0000; //$2133 regs.mode7_extbg = false; regs.pseudo_hires = false; regs.overscan = false; regs.scanlines = 224; regs.oam_interlace = false; regs.interlace = false; //$2137 regs.hcounter = 0; regs.vcounter = 0; regs.latch_hcounter = 0; regs.latch_vcounter = 0; regs.counters_latched = false; //$2139-$213a regs.vram_readbuffer = 0x0000; //$213e regs.time_over = false; regs.range_over = false; reset(); } void PPU::reset() { create(Enter, system.cpu_frequency()); PPUcounter::reset(); memset(surface, 0, 512 * 512 * sizeof(uint16)); frame(); //$2100 regs.display_disabled = true; display.interlace = false; display.overscan = false; regs.scanlines = 224; memset(sprite_list, 0, sizeof(sprite_list)); sprite_list_valid = false; //open bus support regs.ppu1_mdr = 0xff; regs.ppu2_mdr = 0xff; //bg line counters regs.bg_y[0] = 0; regs.bg_y[1] = 0; regs.bg_y[2] = 0; regs.bg_y[3] = 0; } PPU::PPU() { surface = new uint16[512 * 512]; output = surface + 16 * 512; alloc_tiledata_cache(); for(unsigned l = 0; l < 16; l++) { for(unsigned i = 0; i < 4096; i++) { mosaic_table[l][i] = (i / (l + 1)) * (l + 1); } } for(unsigned l = 0; l < 16; l++) { for(unsigned r = 0; r < 32; r++) { for(unsigned g = 0; g < 32; g++) { for(unsigned b = 0; b < 32; b++) { double luma = (double)l / 15.0; unsigned ar = (luma * r + 0.5); unsigned ag = (luma * g + 0.5); unsigned ab = (luma * b + 0.5); light_table[l][(r << 10) + (g << 5) + b] = (ab << 10) + (ag << 5) + ar; } } } } } PPU::~PPU() { delete[] surface; free_tiledata_cache(); } }