#include "AppConfig.h" #include "CubicSDR.h" DeviceConfig::DeviceConfig() : deviceId("") { ppm.store(0); directSampling.store(false); offset.store(0); } DeviceConfig::DeviceConfig(std::string deviceId) : DeviceConfig() { this->deviceId = deviceId; } void DeviceConfig::setPPM(int ppm) { this->ppm.store(ppm); } int DeviceConfig::getPPM() { return ppm.load(); } void DeviceConfig::setDirectSampling(int mode) { directSampling.store(mode); } int DeviceConfig::getDirectSampling() { return directSampling.load(); } void DeviceConfig::setOffset(long long offset) { this->offset.store(offset); } long long DeviceConfig::getOffset() { return offset.load(); } void DeviceConfig::setIQSwap(bool iqSwap) { this->iqSwap.store(iqSwap); } bool DeviceConfig::getIQSwap() { return iqSwap.load(); } void DeviceConfig::setDeviceId(std::string deviceId) { busy_lock.lock(); this->deviceId = deviceId; busy_lock.unlock(); } std::string DeviceConfig::getDeviceId() { std::string tmp; busy_lock.lock(); tmp = deviceId; busy_lock.unlock(); return tmp; } void DeviceConfig::save(DataNode *node) { busy_lock.lock(); *node->newChild("id") = deviceId; *node->newChild("ppm") = (int)ppm; *node->newChild("iq_swap") = iqSwap; *node->newChild("direct_sampling") = directSampling; *node->newChild("offset") = offset; busy_lock.unlock(); } void DeviceConfig::load(DataNode *node) { busy_lock.lock(); if (node->hasAnother("ppm")) { DataNode *ppm_node = node->getNext("ppm"); int ppmValue = 0; ppm_node->element()->get(ppmValue); setPPM(ppmValue); std::cout << "Loaded PPM for device '" << deviceId << "' at " << ppmValue << "ppm" << std::endl; } if (node->hasAnother("iq_swap")) { DataNode *iq_swap_node = node->getNext("iq_swap"); int iqSwapValue = 0; iq_swap_node->element()->get(iqSwapValue); setIQSwap(iqSwapValue?true:false); std::cout << "Loaded I/Q Swap for device '" << deviceId << "' as " << (iqSwapValue?"swapped":"not swapped") << std::endl; } if (node->hasAnother("direct_sampling")) { DataNode *direct_sampling_node = node->getNext("direct_sampling"); int directSamplingValue = 0; direct_sampling_node->element()->get(directSamplingValue); setDirectSampling(directSamplingValue); std::cout << "Loaded Direct Sampling Mode for device '" << deviceId << "': "; switch (directSamplingValue) { case 0: std::cout << "off" << std::endl; break; case 1: std::cout << "I-ADC" << std::endl; break; case 2: std::cout << "Q-ADC" << std::endl; break; } } if (node->hasAnother("offset")) { DataNode *offset_node = node->getNext("offset"); long long offsetValue = 0; offset_node->element()->get(offsetValue); setOffset(offsetValue); std::cout << "Loaded offset for device '" << deviceId << "' at " << offsetValue << "Hz" << std::endl; } busy_lock.unlock(); } AppConfig::AppConfig() { winX.store(0); winY.store(0); winW.store(0); winH.store(0); winMax.store(false); themeId.store(0); snap.store(1); } DeviceConfig *AppConfig::getDevice(std::string deviceId) { if (deviceConfig.find(deviceId) == deviceConfig.end()) { deviceConfig[deviceId] = new DeviceConfig(); } DeviceConfig *conf = deviceConfig[deviceId]; conf->setDeviceId(deviceId); return conf; } std::string AppConfig::getConfigDir() { std::string dataDir = wxStandardPaths::Get().GetUserDataDir().ToStdString(); bool mkStatus = false; if (!wxDir::Exists(dataDir)) { mkStatus = wxDir::Make(dataDir); } else { mkStatus = true; } if (!mkStatus) { std::cout << "Warning, unable to initialize user data directory." << std::endl; } return dataDir; } void AppConfig::setWindow(wxPoint winXY, wxSize winWH) { winX.store(winXY.x); winY.store(winXY.y); winW.store(winWH.x); winH.store(winWH.y); } void AppConfig::setWindowMaximized(bool max) { winMax.store(max); } bool AppConfig::getWindowMaximized() { return winMax.load(); } wxRect *AppConfig::getWindow() { wxRect *r = NULL; if (winH.load() && winW.load()) { r = new wxRect(winX.load(),winY.load(),winW.load(),winH.load()); } return r; } void AppConfig::setTheme(int themeId) { this->themeId.store(themeId); } int AppConfig::getTheme() { return themeId.load(); } void AppConfig::setSnap(long long snapVal) { this->snap.store(snapVal); } long long AppConfig::getSnap() { return snap.load(); } bool AppConfig::save() { DataTree cfg; cfg.rootNode()->setName("cubicsdr_config"); if (winW.load() && winH.load()) { DataNode *window_node = cfg.rootNode()->newChild("window"); *window_node->newChild("x") = winX.load(); *window_node->newChild("y") = winY.load(); *window_node->newChild("w") = winW.load(); *window_node->newChild("h") = winH.load(); *window_node->newChild("max") = winMax.load(); *window_node->newChild("theme") = themeId.load(); *window_node->newChild("snap") = snap.load(); } DataNode *devices_node = cfg.rootNode()->newChild("devices"); std::map::iterator device_config_i; for (device_config_i = deviceConfig.begin(); device_config_i != deviceConfig.end(); device_config_i++) { DataNode *device_node = devices_node->newChild("device"); device_config_i->second->save(device_node); } std::string cfgFileDir = getConfigDir(); wxFileName cfgFile = wxFileName(cfgFileDir, "config.xml"); std::string cfgFileName = cfgFile.GetFullPath(wxPATH_NATIVE).ToStdString(); if (!cfg.SaveToFileXML(cfgFileName)) { std::cout << "Error saving :: configuration file '" << cfgFileName << "' is not writable!" << std::endl; return false; } return true; } bool AppConfig::load() { DataTree cfg; std::string cfgFileDir = getConfigDir(); wxFileName cfgFile = wxFileName(cfgFileDir, "config.xml"); std::string cfgFileName = cfgFile.GetFullPath(wxPATH_NATIVE).ToStdString(); if (!cfgFile.Exists()) { return true; } if (cfgFile.IsFileReadable()) { std::cout << "Loading:: configuration file '" << cfgFileName << "'" << std::endl; cfg.LoadFromFileXML(cfgFileName); } else { std::cout << "Error loading:: configuration file '" << cfgFileName << "' is not readable!" << std::endl; return false; } if (cfg.rootNode()->hasAnother("window")) { int x,y,w,h; int max; DataNode *win_node = cfg.rootNode()->getNext("window"); if (win_node->hasAnother("w") && win_node->hasAnother("h") && win_node->hasAnother("x") && win_node->hasAnother("y")) { win_node->getNext("x")->element()->get(x); win_node->getNext("y")->element()->get(y); win_node->getNext("w")->element()->get(w); win_node->getNext("h")->element()->get(h); winX.store(x); winY.store(y); winW.store(w); winH.store(h); } if (win_node->hasAnother("max")) { win_node->getNext("max")->element()->get(max); winMax.store(max?true:false); } if (win_node->hasAnother("theme")) { int theme; win_node->getNext("theme")->element()->get(theme); themeId.store(theme); } if (win_node->hasAnother("snap")) { long long snapVal; win_node->getNext("snap")->element()->get(snapVal); snap.store(snapVal); } } if (cfg.rootNode()->hasAnother("devices")) { DataNode *devices_node = cfg.rootNode()->getNext("devices"); while (devices_node->hasAnother("device")) { DataNode *device_node = devices_node->getNext("device"); if (device_node->hasAnother("id")) { std::string deviceId; device_node->getNext("id")->element()->get(deviceId); getDevice(deviceId)->load(device_node); } } } return true; } bool AppConfig::reset() { return true; }