//request from emulation core to load non-volatile media folder auto Program::loadRequest(unsigned id, string name, string type) -> void { string location = BrowserDialog() .setTitle({"Load ", name}) .setPath({config->library.location, name}) .setFilters({string{name, "|*.", type}}) .openFolder(); if(!directory::exists(location)) return; mediaPaths(id) = location; folderPaths.append(location); emulator->load(id); } //request from emulation core to load non-volatile media file auto Program::loadRequest(unsigned id, string path) -> void { string location = {mediaPaths(emulator->group(id)), path}; if(!file::exists(location)) return; mmapstream stream{location}; return emulator->load(id, stream); } //request from emulation core to save non-volatile media file auto Program::saveRequest(unsigned id, string path) -> void { string location = {mediaPaths(emulator->group(id)), path}; filestream stream{location, file::mode::write}; return emulator->save(id, stream); } auto Program::videoColor(unsigned source, uint16 a, uint16 r, uint16 g, uint16 b) -> uint32 { if(config->video.saturation != 100) { uint16 grayscale = uclamp<16>((r + g + b) / 3); double saturation = config->video.saturation * 0.01; double inverse = max(0.0, 1.0 - saturation); r = uclamp<16>(r * saturation + grayscale * inverse); g = uclamp<16>(g * saturation + grayscale * inverse); b = uclamp<16>(b * saturation + grayscale * inverse); } if(config->video.gamma != 100) { double exponent = config->video.gamma * 0.01; double reciprocal = 1.0 / 32767.0; r = r > 32767 ? r : 32767 * pow(r * reciprocal, exponent); g = g > 32767 ? g : 32767 * pow(g * reciprocal, exponent); b = b > 32767 ? b : 32767 * pow(b * reciprocal, exponent); } if(config->video.luminance != 100) { double luminance = config->video.luminance * 0.01; r = r * luminance; g = g * luminance; b = b * luminance; } a >>= 8; r >>= 8; g >>= 8; b >>= 8; return a << 24 | r << 16 | g << 8 | b << 0; } auto Program::videoRefresh(const uint32* palette, const uint32* data, unsigned pitch, unsigned width, unsigned height) -> void { uint32* output; unsigned length; if(video.lock(output, length, width, height)) { pitch >>= 2, length >>= 2; for(auto y : range(height)) { const uint32* sp = data + y * pitch; uint32* dp = output + y * length; for(auto x : range(width)) { *dp++ = palette[*sp++]; } } if(emulator->information.overscan && config->video.overscan.mask) { unsigned h = config->video.overscan.horizontal; unsigned v = config->video.overscan.vertical; if(h) for(auto y : range(height)) { memory::fill(output + y * length, 4 * h); memory::fill(output + y * length + (width - h), 4 * h); } if(v) for(auto y : range(v)) { memory::fill(output + y * length, 4 * width); memory::fill(output + (height - 1 - y) * length, 4 * width); } } video.unlock(); video.refresh(); } static unsigned frameCounter = 0; static time_t previous, current; frameCounter++; time(¤t); if(current != previous) { previous = current; statusText = {"FPS: ", frameCounter}; frameCounter = 0; } } auto Program::audioSample(int16 lsample, int16 rsample) -> void { signed samples[] = {lsample, rsample}; dsp.sample(samples); while(dsp.pending()) { dsp.read(samples); audio.sample(samples[0], samples[1]); } } auto Program::inputPoll(unsigned port, unsigned device, unsigned input) -> int16 { if(presentation->focused()) { auto guid = emulator->port[port].device[device].input[input].guid; auto mapping = (InputMapping*)guid; if(mapping) return mapping->poll(); } return 0; } auto Program::inputRumble(unsigned port, unsigned device, unsigned input, bool enable) -> void { } auto Program::dipSettings(const Markup::Node& node) -> unsigned { } auto Program::path(unsigned group) -> string { return mediaPaths(group); } auto Program::notify(string text) -> void { }