Merge pull request #268 from viraptor/warning_cleanups

Warning cleanups
This commit is contained in:
Charles J. Cliffe 2016-01-28 17:56:26 -05:00
commit 4afd003a92
27 changed files with 108 additions and 108 deletions

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@ -361,15 +361,15 @@ AppFrame::AppFrame() :
menu = new wxMenu; menu = new wxMenu;
#define NUM_RATES_DEFAULT 4 #define NUM_RATES_DEFAULT 4
int desired_rates[NUM_RATES_DEFAULT] = { 48000, 44100, 96000, 192000 }; unsigned int desired_rates[NUM_RATES_DEFAULT] = { 48000, 44100, 96000, 192000 };
for (mdevices_i = outputDevices.begin(); mdevices_i != outputDevices.end(); mdevices_i++) { for (mdevices_i = outputDevices.begin(); mdevices_i != outputDevices.end(); mdevices_i++) {
int desired_rate = 0; unsigned int desired_rate = 0;
int desired_rank = NUM_RATES_DEFAULT + 1; unsigned int desired_rank = NUM_RATES_DEFAULT + 1;
for (std::vector<unsigned int>::iterator srate = mdevices_i->second.sampleRates.begin(); srate != mdevices_i->second.sampleRates.end(); for (std::vector<unsigned int>::iterator srate = mdevices_i->second.sampleRates.begin(); srate != mdevices_i->second.sampleRates.end();
srate++) { srate++) {
for (i = 0; i < NUM_RATES_DEFAULT; i++) { for (unsigned int i = 0; i < NUM_RATES_DEFAULT; i++) {
if (desired_rates[i] == (*srate)) { if (desired_rates[i] == (*srate)) {
if (desired_rank > i) { if (desired_rank > i) {
desired_rank = i; desired_rank = i;
@ -670,7 +670,7 @@ void AppFrame::updateDeviceParams() {
void AppFrame::OnMenu(wxCommandEvent& event) { void AppFrame::OnMenu(wxCommandEvent& event) {
if (event.GetId() >= wxID_RT_AUDIO_DEVICE && event.GetId() < wxID_RT_AUDIO_DEVICE + devices.size()) { if (event.GetId() >= wxID_RT_AUDIO_DEVICE && event.GetId() < wxID_RT_AUDIO_DEVICE + (int)devices.size()) {
if (activeDemodulator) { if (activeDemodulator) {
activeDemodulator->setOutputDevice(event.GetId() - wxID_RT_AUDIO_DEVICE); activeDemodulator->setOutputDevice(event.GetId() - wxID_RT_AUDIO_DEVICE);
activeDemodulator = NULL; activeDemodulator = NULL;
@ -775,7 +775,7 @@ void AppFrame::OnMenu(wxCommandEvent& event) {
for (std::vector<SoapySDR::ArgInfo>::iterator arg_i = settingArgs.begin(); arg_i != settingArgs.end(); arg_i++) { for (std::vector<SoapySDR::ArgInfo>::iterator arg_i = settingArgs.begin(); arg_i != settingArgs.end(); arg_i++) {
SoapySDR::ArgInfo &arg = (*arg_i); SoapySDR::ArgInfo &arg = (*arg_i);
if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size() && setIdx >= menuIdx && setIdx < menuIdx+arg.options.size()) { if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size() && setIdx >= menuIdx && setIdx < menuIdx+(int)arg.options.size()) {
int optIdx = setIdx-menuIdx; int optIdx = setIdx-menuIdx;
wxGetApp().getSDRThread()->writeSetting(arg.key, arg.options[optIdx]); wxGetApp().getSDRThread()->writeSetting(arg.key, arg.options[optIdx]);
break; break;
@ -862,7 +862,7 @@ void AppFrame::OnMenu(wxCommandEvent& event) {
break; break;
} }
if (event.GetId() >= wxID_BANDWIDTH_BASE && event.GetId() < wxID_BANDWIDTH_BASE+sampleRates.size()) { if (event.GetId() >= wxID_BANDWIDTH_BASE && event.GetId() < wxID_BANDWIDTH_BASE + (int)sampleRates.size()) {
wxGetApp().setSampleRate(sampleRates[event.GetId()-wxID_BANDWIDTH_BASE]); wxGetApp().setSampleRate(sampleRates[event.GetId()-wxID_BANDWIDTH_BASE]);
} }

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@ -96,7 +96,7 @@ std::string frequencyToStr(long long freq) {
long long strToFrequency(std::string freqStr) { long long strToFrequency(std::string freqStr) {
std::string filterStr = filterChars(freqStr, std::string("0123456789.MKGHmkgh")); std::string filterStr = filterChars(freqStr, std::string("0123456789.MKGHmkgh"));
int numLen = filterStr.find_first_not_of("0123456789."); size_t numLen = filterStr.find_first_not_of("0123456789.");
if (numLen == std::string::npos) { if (numLen == std::string::npos) {
numLen = freqStr.length(); numLen = freqStr.length();
@ -806,4 +806,4 @@ bool CubicSDR::rigIsActive() {
return (rigThread && !rigThread->isTerminated()); return (rigThread && !rigThread->isTerminated());
} }
#endif #endif

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@ -37,11 +37,11 @@ void IOThread::terminate() {
terminated.store(true); terminated.store(true);
}; };
void IOThread::onBindOutput(std::string name, ThreadQueueBase* threadQueue) { void IOThread::onBindOutput(std::string /* name */, ThreadQueueBase* /* threadQueue */) {
}; };
void IOThread::onBindInput(std::string name, ThreadQueueBase* threadQueue) { void IOThread::onBindInput(std::string /* name */, ThreadQueueBase* /* threadQueue */) {
}; };
@ -65,4 +65,4 @@ void *IOThread::getOutputQueue(std::string qname) {
bool IOThread::isTerminated() { bool IOThread::isTerminated() {
return terminated.load(); return terminated.load();
} }

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@ -69,7 +69,7 @@ static int audioCallback(void *outputBuffer, void * /* inputBuffer */, unsigned
float peak = 0.0; float peak = 0.0;
for (int j = 0; j < src->boundThreads.load()->size(); j++) { for (size_t j = 0; j < src->boundThreads.load()->size(); j++) {
AudioThread *srcmix = (*(src->boundThreads.load()))[j]; AudioThread *srcmix = (*(src->boundThreads.load()))[j];
if (srcmix->isTerminated() || !srcmix->inputQueue || srcmix->inputQueue->empty() || !srcmix->isActive()) { if (srcmix->isTerminated() || !srcmix->inputQueue || srcmix->inputQueue->empty() || !srcmix->isActive()) {
continue; continue;
@ -130,7 +130,7 @@ static int audioCallback(void *outputBuffer, void * /* inputBuffer */, unsigned
float mixPeak = srcmix->currentInput->peak * srcmix->gain; float mixPeak = srcmix->currentInput->peak * srcmix->gain;
if (srcmix->currentInput->channels == 1) { if (srcmix->currentInput->channels == 1) {
for (int i = 0; i < nBufferFrames; i++) { for (unsigned int i = 0; i < nBufferFrames; i++) {
if (srcmix->audioQueuePtr >= srcmix->currentInput->data.size()) { if (srcmix->audioQueuePtr >= srcmix->currentInput->data.size()) {
srcmix->audioQueuePtr = 0; srcmix->audioQueuePtr = 0;
if (srcmix->currentInput) { if (srcmix->currentInput) {
@ -187,7 +187,7 @@ static int audioCallback(void *outputBuffer, void * /* inputBuffer */, unsigned
} }
if (peak > 1.0) { if (peak > 1.0) {
for (int i = 0; i < nBufferFrames * 2; i++) { for (unsigned int i = 0; i < nBufferFrames * 2; i++) {
out[i] /= peak; out[i] /= peak;
} }
} }
@ -262,7 +262,7 @@ void AudioThread::setSampleRate(int sampleRate) {
dac.stopStream(); dac.stopStream();
dac.closeStream(); dac.closeStream();
for (int j = 0; j < boundThreads.load()->size(); j++) { for (size_t j = 0; j < boundThreads.load()->size(); j++) {
AudioThread *srcmix = (*(boundThreads.load()))[j]; AudioThread *srcmix = (*(boundThreads.load()))[j];
srcmix->setSampleRate(sampleRate); srcmix->setSampleRate(sampleRate);
} }

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@ -155,7 +155,7 @@ void DemodulatorPreThread::run() {
// std::lock_guard < std::mutex > lock(inp->m_mutex); // std::lock_guard < std::mutex > lock(inp->m_mutex);
std::vector<liquid_float_complex> *data = &inp->data; std::vector<liquid_float_complex> *data = &inp->data;
if (data->size() && (inp->sampleRate == currentSampleRate) && cModem && cModemKit) { if (data->size() && (inp->sampleRate == currentSampleRate) && cModem && cModemKit) {
int bufSize = data->size(); size_t bufSize = data->size();
if (in_buf_data.size() != bufSize) { if (in_buf_data.size() != bufSize) {
if (in_buf_data.capacity() < bufSize) { if (in_buf_data.capacity() < bufSize) {
@ -185,7 +185,7 @@ void DemodulatorPreThread::run() {
DemodulatorThreadPostIQData *resamp = buffers.getBuffer(); DemodulatorThreadPostIQData *resamp = buffers.getBuffer();
int out_size = ceil((double) (bufSize) * iqResampleRatio) + 512; size_t out_size = ceil((double) (bufSize) * iqResampleRatio) + 512;
if (resampledData.size() != out_size) { if (resampledData.size() != out_size) {
if (resampledData.capacity() < out_size) { if (resampledData.capacity() < out_size) {

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@ -166,7 +166,7 @@ void DemodulatorThread::run() {
ati_vis->sampleRate = inp->sampleRate; ati_vis->sampleRate = inp->sampleRate;
ati_vis->inputRate = inp->sampleRate; ati_vis->inputRate = inp->sampleRate;
int num_vis = DEMOD_VIS_SIZE; size_t num_vis = DEMOD_VIS_SIZE;
if (modemDigital) { if (modemDigital) {
ati_vis->data.resize(inputData->size()); ati_vis->data.resize(inputData->size());
ati_vis->channels = 2; ati_vis->channels = 2;
@ -199,7 +199,7 @@ void DemodulatorThread::run() {
} }
ati_vis->type = 1; ati_vis->type = 1;
} else { } else {
int numAudioWritten = ati->data.size(); size_t numAudioWritten = ati->data.size();
ati_vis->channels = 1; ati_vis->channels = 1;
std::vector<float> *demodOutData = (modemAnalog != nullptr)?modemAnalog->getDemodOutputData():nullptr; std::vector<float> *demodOutData = (modemAnalog != nullptr)?modemAnalog->getDemodOutputData():nullptr;
if ((numAudioWritten > bufSize) || (demodOutData == nullptr)) { if ((numAudioWritten > bufSize) || (demodOutData == nullptr)) {

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@ -19,7 +19,7 @@ std::string ModemDigital::getType() {
return "digital"; return "digital";
} }
int ModemDigital::checkSampleRate(long long sampleRate, int audioSampleRate) { int ModemDigital::checkSampleRate(long long sampleRate, int /* audioSampleRate */) {
if (sampleRate < MIN_BANDWIDTH) { if (sampleRate < MIN_BANDWIDTH) {
return MIN_BANDWIDTH; return MIN_BANDWIDTH;
} }
@ -53,7 +53,7 @@ void ModemDigital::updateDemodulatorLock(modem mod, float sensitivity) {
setDemodulatorLock(modem_get_demodulator_evm(mod) <= sensitivity); setDemodulatorLock(modem_get_demodulator_evm(mod) <= sensitivity);
} }
void ModemDigital::digitalStart(ModemKitDigital *kit, modem mod, ModemIQData *input) { void ModemDigital::digitalStart(ModemKitDigital * /* kit */, modem /* mod */, ModemIQData *input) {
int bufSize = input->data.size(); int bufSize = input->data.size();
if (demodOutputDataDigital.size() != bufSize) { if (demodOutputDataDigital.size() != bufSize) {
@ -64,7 +64,7 @@ void ModemDigital::digitalStart(ModemKitDigital *kit, modem mod, ModemIQData *in
} }
} }
void ModemDigital::digitalFinish(ModemKitDigital *kit, modem mod) { void ModemDigital::digitalFinish(ModemKitDigital * /* kit */, modem /* mod */) {
#if ENABLE_DIGITAL_LAB #if ENABLE_DIGITAL_LAB
if (digitalOut && outStream.str().length()) { if (digitalOut && outStream.str().length()) {
digitalOut->write(outStream.str()); digitalOut->write(outStream.str());
@ -79,4 +79,4 @@ void ModemDigital::digitalFinish(ModemKitDigital *kit, modem mod) {
void ModemDigital::setOutput(ModemDigitalOutput *modemDigitalOutput) { void ModemDigital::setOutput(ModemDigitalOutput *modemDigitalOutput) {
digitalOut = modemDigitalOutput; digitalOut = modemDigitalOutput;
} }
#endif #endif

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@ -30,7 +30,7 @@ Modem *ModemFMStereo::factory() {
return new ModemFMStereo; return new ModemFMStereo;
} }
int ModemFMStereo::checkSampleRate(long long sampleRate, int audioSampleRate) { int ModemFMStereo::checkSampleRate(long long sampleRate, int /* audioSampleRate */) {
if (sampleRate < 100000) { if (sampleRate < 100000) {
return 100000; return 100000;
} else if (sampleRate < 1500) { } else if (sampleRate < 1500) {

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@ -27,7 +27,7 @@ void ModemIQ::disposeKit(ModemKit *kit) {
delete kit; delete kit;
} }
int ModemIQ::checkSampleRate(long long sampleRate, int audioSampleRate) { int ModemIQ::checkSampleRate(long long /* sampleRate */, int audioSampleRate) {
return audioSampleRate; return audioSampleRate;
} }
@ -35,7 +35,7 @@ int ModemIQ::getDefaultSampleRate() {
return 48000; return 48000;
} }
void ModemIQ::demodulate(ModemKit *kit, ModemIQData *input, AudioThreadInput *audioOut) { void ModemIQ::demodulate(ModemKit * /* kit */, ModemIQData *input, AudioThreadInput *audioOut) {
int bufSize = input->data.size(); int bufSize = input->data.size();
if (!bufSize) { if (!bufSize) {

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@ -33,7 +33,7 @@ ModemLSB::~ModemLSB() {
ampmodem_destroy(demodAM_LSB); ampmodem_destroy(demodAM_LSB);
} }
int ModemLSB::checkSampleRate(long long sampleRate, int audioSampleRate) { int ModemLSB::checkSampleRate(long long sampleRate, int /* audioSampleRate */) {
if (sampleRate < MIN_BANDWIDTH) { if (sampleRate < MIN_BANDWIDTH) {
return MIN_BANDWIDTH; return MIN_BANDWIDTH;
} }

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@ -33,7 +33,7 @@ ModemUSB::~ModemUSB() {
ampmodem_destroy(demodAM_USB); ampmodem_destroy(demodAM_USB);
} }
int ModemUSB::checkSampleRate(long long sampleRate, int audioSampleRate) { int ModemUSB::checkSampleRate(long long sampleRate, int /* audioSampleRate */) {
if (sampleRate < MIN_BANDWIDTH) { if (sampleRate < MIN_BANDWIDTH) {
return MIN_BANDWIDTH; return MIN_BANDWIDTH;
} }

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@ -7,7 +7,7 @@ WaterfallPanel::WaterfallPanel() : GLPanel(), fft_size(0), waterfall_lines(0), w
} }
} }
void WaterfallPanel::setup(int fft_size_in, int num_waterfall_lines_in) { void WaterfallPanel::setup(unsigned int fft_size_in, int num_waterfall_lines_in) {
waterfall_lines = num_waterfall_lines_in; waterfall_lines = num_waterfall_lines_in;
fft_size = fft_size_in; fft_size = fft_size_in;
lines_buffered.store(0); lines_buffered.store(0);
@ -34,9 +34,9 @@ void WaterfallPanel::refreshTheme() {
} }
void WaterfallPanel::setPoints(std::vector<float> &points) { void WaterfallPanel::setPoints(std::vector<float> &points) {
int halfPts = points.size()/2; size_t halfPts = points.size()/2;
if (halfPts == fft_size) { if (halfPts == fft_size) {
for (int i = 0; i < fft_size; i++) { for (unsigned int i = 0; i < fft_size; i++) {
this->points[i] = points[i*2+1]; this->points[i] = points[i*2+1];
} }
} else { } else {
@ -45,7 +45,7 @@ void WaterfallPanel::setPoints(std::vector<float> &points) {
} }
void WaterfallPanel::step() { void WaterfallPanel::step() {
int half_fft_size = fft_size / 2; unsigned int half_fft_size = fft_size / 2;
if (!bufferInitialized.load()) { if (!bufferInitialized.load()) {
delete waterfall_slice; delete waterfall_slice;
@ -67,7 +67,7 @@ void WaterfallPanel::step() {
waterfall_slice[i] = (unsigned char) floor(wv * 255.0); waterfall_slice[i] = (unsigned char) floor(wv * 255.0);
} }
int newBufSize = (half_fft_size*lines_buffered.load()+half_fft_size); unsigned int newBufSize = (half_fft_size*lines_buffered.load()+half_fft_size);
if (lineBuffer[j].size() < newBufSize) { if (lineBuffer[j].size() < newBufSize) {
lineBuffer[j].resize(newBufSize); lineBuffer[j].resize(newBufSize);
rLineBuffer[j].resize(newBufSize); rLineBuffer[j].resize(newBufSize);

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@ -6,7 +6,7 @@
class WaterfallPanel : public GLPanel { class WaterfallPanel : public GLPanel {
public: public:
WaterfallPanel(); WaterfallPanel();
void setup(int fft_size_in, int num_waterfall_lines_in); void setup(unsigned int fft_size_in, int num_waterfall_lines_in);
void refreshTheme(); void refreshTheme();
void setPoints(std::vector<float> &points); void setPoints(std::vector<float> &points);
void step(); void step();
@ -20,7 +20,7 @@ private:
GLuint waterfall[2]; GLuint waterfall[2];
int waterfall_ofs[2]; int waterfall_ofs[2];
int fft_size; unsigned int fft_size;
int waterfall_lines; int waterfall_lines;
unsigned char *waterfall_slice; unsigned char *waterfall_slice;
std::vector<unsigned char> lineBuffer[2]; std::vector<unsigned char> lineBuffer[2];

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@ -63,7 +63,7 @@ void ScopeVisualProcessor::process() {
if (!audioInputData) { if (!audioInputData) {
return; return;
} }
int i, iMax = audioInputData->data.size(); size_t i, iMax = audioInputData->data.size();
if (!iMax) { if (!iMax) {
audioInputData->decRefCount(); audioInputData->decRefCount();
return; return;
@ -191,7 +191,7 @@ void ScopeVisualProcessor::process() {
fft_floor_ma = fft_floor_ma + (fft_floor - fft_floor_ma) * 0.05; fft_floor_ma = fft_floor_ma + (fft_floor - fft_floor_ma) * 0.05;
fft_floor_maa = fft_floor_maa + (fft_floor_ma - fft_floor_maa) * 0.05; fft_floor_maa = fft_floor_maa + (fft_floor_ma - fft_floor_maa) * 0.05;
int outSize = fftSize/2; unsigned int outSize = fftSize/2;
if (renderData->sampleRate != renderData->inputRate) { if (renderData->sampleRate != renderData->inputRate) {
outSize = (int)floor((float)outSize * ((float)renderData->sampleRate/(float)renderData->inputRate)); outSize = (int)floor((float)outSize * ((float)renderData->sampleRate/(float)renderData->inputRate));

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@ -36,9 +36,9 @@ protected:
float *fftInData; float *fftInData;
fftwf_complex *fftwOutput; fftwf_complex *fftwOutput;
fftwf_plan fftw_plan; fftwf_plan fftw_plan;
int fftSize; unsigned int fftSize;
int desiredInputSize; int desiredInputSize;
int maxScopeSamples; unsigned int maxScopeSamples;
double fft_ceil_ma, fft_ceil_maa; double fft_ceil_ma, fft_ceil_maa;
double fft_floor_ma, fft_floor_maa; double fft_floor_ma, fft_floor_maa;

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@ -95,7 +95,7 @@ int SpectrumVisualProcessor::getDesiredInputSize() {
return desiredInputSize.load(); return desiredInputSize.load();
} }
void SpectrumVisualProcessor::setup(int fftSize_in) { void SpectrumVisualProcessor::setup(unsigned int fftSize_in) {
busy_run.lock(); busy_run.lock();
fftSize = fftSize_in; fftSize = fftSize_in;
@ -139,7 +139,7 @@ void SpectrumVisualProcessor::setup(int fftSize_in) {
busy_run.unlock(); busy_run.unlock();
} }
void SpectrumVisualProcessor::setFFTSize(int fftSize_in) { void SpectrumVisualProcessor::setFFTSize(unsigned int fftSize_in) {
if (fftSize_in == fftSize) { if (fftSize_in == fftSize) {
return; return;
} }
@ -194,7 +194,7 @@ void SpectrumVisualProcessor::process() {
if (peakReset.load() != 0) { if (peakReset.load() != 0) {
peakReset--; peakReset--;
if (peakReset.load() == 0) { if (peakReset.load() == 0) {
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_peak[i] = fft_floor_maa; fft_result_peak[i] = fft_floor_maa;
} }
fft_ceil_peak = fft_floor_maa; fft_ceil_peak = fft_floor_maa;
@ -224,7 +224,7 @@ void SpectrumVisualProcessor::process() {
resamplerRatio = (double) (resampleBw) / (double) iqData->sampleRate; resamplerRatio = (double) (resampleBw) / (double) iqData->sampleRate;
int desired_input_size = fftSizeInternal / resamplerRatio; size_t desired_input_size = fftSizeInternal / resamplerRatio;
this->desiredInputSize.store(desired_input_size); this->desiredInputSize.store(desired_input_size);
@ -246,7 +246,7 @@ void SpectrumVisualProcessor::process() {
if (lastBandwidth!=0) { if (lastBandwidth!=0) {
double binPerHz = double(lastBandwidth) / double(fftSizeInternal); double binPerHz = double(lastBandwidth) / double(fftSizeInternal);
int numShift = floor(double(abs(freqDiff)) / binPerHz); unsigned int numShift = floor(double(abs(freqDiff)) / binPerHz);
if (numShift < fftSizeInternal/2 && numShift) { if (numShift < fftSizeInternal/2 && numShift) {
if (freqDiff > 0) { if (freqDiff > 0) {
@ -300,7 +300,7 @@ void SpectrumVisualProcessor::process() {
} }
int out_size = ceil((double) (desired_input_size) * resamplerRatio) + 512; unsigned int out_size = ceil((double) (desired_input_size) * resamplerRatio) + 512;
if (resampleBuffer.size() != out_size) { if (resampleBuffer.size() != out_size) {
if (resampleBuffer.capacity() < out_size) { if (resampleBuffer.capacity() < out_size) {
@ -312,16 +312,16 @@ void SpectrumVisualProcessor::process() {
msresamp_crcf_execute(resampler, &shiftBuffer[0], desired_input_size, &resampleBuffer[0], &num_written); msresamp_crcf_execute(resampler, &shiftBuffer[0], desired_input_size, &resampleBuffer[0], &num_written);
if (num_written < fftSizeInternal) { if (num_written < fftSizeInternal) {
for (int i = 0; i < num_written; i++) { for (unsigned int i = 0; i < num_written; i++) {
fftInData[i][0] = resampleBuffer[i].real; fftInData[i][0] = resampleBuffer[i].real;
fftInData[i][1] = resampleBuffer[i].imag; fftInData[i][1] = resampleBuffer[i].imag;
} }
for (int i = num_written; i < fftSizeInternal; i++) { for (unsigned int i = num_written; i < fftSizeInternal; i++) {
fftInData[i][0] = 0; fftInData[i][0] = 0;
fftInData[i][1] = 0; fftInData[i][1] = 0;
} }
} else { } else {
for (int i = 0; i < fftSizeInternal; i++) { for (unsigned int i = 0; i < fftSizeInternal; i++) {
fftInData[i][0] = resampleBuffer[i].real; fftInData[i][0] = resampleBuffer[i].real;
fftInData[i][1] = resampleBuffer[i].imag; fftInData[i][1] = resampleBuffer[i].imag;
} }
@ -331,16 +331,16 @@ void SpectrumVisualProcessor::process() {
num_written = data->size(); num_written = data->size();
if (data->size() < fftSizeInternal) { if (data->size() < fftSizeInternal) {
for (int i = 0, iMax = data->size(); i < iMax; i++) { for (size_t i = 0, iMax = data->size(); i < iMax; i++) {
fftInData[i][0] = (*data)[i].real; fftInData[i][0] = (*data)[i].real;
fftInData[i][1] = (*data)[i].imag; fftInData[i][1] = (*data)[i].imag;
} }
for (int i = data->size(); i < fftSizeInternal; i++) { for (size_t i = data->size(); i < fftSizeInternal; i++) {
fftInData[i][0] = 0; fftInData[i][0] = 0;
fftInData[i][1] = 0; fftInData[i][1] = 0;
} }
} else { } else {
for (int i = 0; i < fftSizeInternal; i++) { for (unsigned int i = 0; i < fftSizeInternal; i++) {
fftInData[i][0] = (*data)[i].real; fftInData[i][0] = (*data)[i].real;
fftInData[i][1] = (*data)[i].imag; fftInData[i][1] = (*data)[i].imag;
} }
@ -404,19 +404,19 @@ void SpectrumVisualProcessor::process() {
if (newResampler && lastView) { if (newResampler && lastView) {
if (bwDiff < 0) { if (bwDiff < 0) {
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_temp[i] = fft_result_ma[(fftSizeInternal/4) + (i/2)]; fft_result_temp[i] = fft_result_ma[(fftSizeInternal/4) + (i/2)];
} }
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_ma[i] = fft_result_temp[i]; fft_result_ma[i] = fft_result_temp[i];
fft_result_temp[i] = fft_result_maa[(fftSizeInternal/4) + (i/2)]; fft_result_temp[i] = fft_result_maa[(fftSizeInternal/4) + (i/2)];
} }
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_maa[i] = fft_result_temp[i]; fft_result_maa[i] = fft_result_temp[i];
} }
} else { } else {
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (size_t i = 0, iMax = fftSizeInternal; i < iMax; i++) {
if (i < fftSizeInternal/4) { if (i < fftSizeInternal/4) {
fft_result_temp[i] = 0; // fft_result_ma[fftSizeInternal/4]; fft_result_temp[i] = 0; // fft_result_ma[fftSizeInternal/4];
} else if (i >= fftSizeInternal - fftSizeInternal/4) { } else if (i >= fftSizeInternal - fftSizeInternal/4) {
@ -425,7 +425,7 @@ void SpectrumVisualProcessor::process() {
fft_result_temp[i] = fft_result_ma[(i-fftSizeInternal/4)*2]; fft_result_temp[i] = fft_result_ma[(i-fftSizeInternal/4)*2];
} }
} }
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_ma[i] = fft_result_temp[i]; fft_result_ma[i] = fft_result_temp[i];
if (i < fftSizeInternal/4) { if (i < fftSizeInternal/4) {
@ -436,7 +436,7 @@ void SpectrumVisualProcessor::process() {
fft_result_temp[i] = fft_result_maa[(i-fftSizeInternal/4)*2]; fft_result_temp[i] = fft_result_maa[(i-fftSizeInternal/4)*2];
} }
} }
for (int i = 0, iMax = fftSizeInternal; i < iMax; i++) { for (unsigned int i = 0, iMax = fftSizeInternal; i < iMax; i++) {
fft_result_maa[i] = fft_result_temp[i]; fft_result_maa[i] = fft_result_temp[i];
} }
} }
@ -494,7 +494,7 @@ void SpectrumVisualProcessor::process() {
visualAccum += visualRatio * double(SPECTRUM_VZM); visualAccum += visualRatio * double(SPECTRUM_VZM);
while (visualAccum >= 1.0) { while (visualAccum >= 1.0) {
int idx = round(visualStart+i); unsigned int idx = round(visualStart+i);
if (idx > 0 && idx < fftSizeInternal) { if (idx > 0 && idx < fftSizeInternal) {
acc += fft_result_maa[idx]; acc += fft_result_maa[idx];
if (doPeak) { if (doPeak) {
@ -547,7 +547,7 @@ void SpectrumVisualProcessor::process() {
int numSteps = (fftEnd-fftStart); int numSteps = (fftEnd-fftStart);
int halfWay = fftStart+(numSteps/2); int halfWay = fftStart+(numSteps/2);
if ((fftEnd+numSteps/2+1 < fftSize) && (fftStart-numSteps/2-1 >= 0) && (fftEnd > fftStart)) { if ((fftEnd+numSteps/2+1 < (long long) fftSize) && (fftStart-numSteps/2-1 >= 0) && (fftEnd > fftStart)) {
int n = 1; int n = 1;
for (int i = fftStart; i < halfWay; i++) { for (int i = fftStart; i < halfWay; i++) {
output->spectrum_points[i * 2 + 1] = output->spectrum_points[(fftStart - n) * 2 + 1]; output->spectrum_points[i * 2 + 1] = output->spectrum_points[(fftStart - n) * 2 + 1];

View File

@ -42,8 +42,8 @@ public:
int getDesiredInputSize(); int getDesiredInputSize();
void setup(int fftSize); void setup(unsigned int fftSize);
void setFFTSize(int fftSize); void setFFTSize(unsigned int fftSize);
void setHideDC(bool hideDC); void setHideDC(bool hideDC);
void setScaleFactor(float sf); void setScaleFactor(float sf);
@ -54,8 +54,8 @@ protected:
ReBuffer<SpectrumVisualData> outputBuffers; ReBuffer<SpectrumVisualData> outputBuffers;
std::atomic_bool is_view; std::atomic_bool is_view;
std::atomic_int fftSize, newFFTSize; std::atomic_uint fftSize, newFFTSize;
std::atomic_int fftSizeInternal; std::atomic_uint fftSizeInternal;
std::atomic_llong centerFreq; std::atomic_llong centerFreq;
std::atomic_long bandwidth; std::atomic_long bandwidth;

View File

@ -178,7 +178,7 @@ std::vector<SDRDeviceInfo *> *SDREnumerator::enumerate_devices(std::string remot
results = SoapySDR::Device::enumerate(); results = SoapySDR::Device::enumerate();
} }
int manualsIdx = results.size(); size_t manualsIdx = results.size();
std::vector<std::string> manualParams; std::vector<std::string> manualParams;
std::vector<bool> manualResult; std::vector<bool> manualResult;
@ -265,7 +265,7 @@ std::vector<SDRDeviceInfo *> *SDREnumerator::enumerate_devices(std::string remot
for (ConfigSettings::const_iterator set_i = devSettings.begin(); set_i != devSettings.end(); set_i++) { for (ConfigSettings::const_iterator set_i = devSettings.begin(); set_i != devSettings.end(); set_i++) {
deviceArgs[set_i->first] = set_i->second; deviceArgs[set_i->first] = set_i->second;
} }
for (int j = 0; j < settingsInfo.size(); j++) { for (size_t j = 0; j < settingsInfo.size(); j++) {
if (deviceArgs.find(settingsInfo[j].key) != deviceArgs.end()) { if (deviceArgs.find(settingsInfo[j].key) != deviceArgs.end()) {
settingsInfo[j].value = deviceArgs[settingsInfo[j].key]; settingsInfo[j].value = deviceArgs[settingsInfo[j].key];
} }

View File

@ -176,7 +176,7 @@ void SDRPostThread::run() {
data_in->decRefCount(); data_in->decRefCount();
bool doUpdate = false; bool doUpdate = false;
for (int j = 0; j < nRunDemods; j++) { for (size_t j = 0; j < nRunDemods; j++) {
DemodulatorInstance *demod = runDemods[j]; DemodulatorInstance *demod = runDemods[j];
if (abs(frequency - demod->getFrequency()) > (sampleRate / 2)) { if (abs(frequency - demod->getFrequency()) > (sampleRate / 2)) {
doUpdate = true; doUpdate = true;
@ -214,8 +214,8 @@ void SDRPostThread::runSingleCH(SDRThreadIQData *data_in) {
doRefresh.store(true); doRefresh.store(true);
} }
int dataSize = data_in->data.size(); size_t dataSize = data_in->data.size();
int outSize = data_in->data.size(); size_t outSize = data_in->data.size();
if (outSize > dataOut.capacity()) { if (outSize > dataOut.capacity()) {
dataOut.reserve(outSize); dataOut.reserve(outSize);
@ -234,7 +234,7 @@ void SDRPostThread::runSingleCH(SDRThreadIQData *data_in) {
doRefresh.store(false); doRefresh.store(false);
} }
int refCount = nRunDemods; size_t refCount = nRunDemods;
bool doIQDataOut = (iqDataOutQueue != NULL && !iqDataOutQueue->full()); bool doIQDataOut = (iqDataOutQueue != NULL && !iqDataOutQueue->full());
bool doDemodVisOut = (nRunDemods && iqActiveDemodVisualQueue != NULL && !iqActiveDemodVisualQueue->full()); bool doDemodVisOut = (nRunDemods && iqActiveDemodVisualQueue != NULL && !iqActiveDemodVisualQueue->full());
bool doVisOut = (iqVisualQueue != NULL && !iqVisualQueue->full()); bool doVisOut = (iqVisualQueue != NULL && !iqVisualQueue->full());
@ -276,7 +276,7 @@ void SDRPostThread::runSingleCH(SDRThreadIQData *data_in) {
iqVisualQueue->push(demodDataOut); iqVisualQueue->push(demodDataOut);
} }
for (int i = 0; i < nRunDemods; i++) { for (size_t i = 0; i < nRunDemods; i++) {
runDemods[i]->getIQInputDataPipe()->push(demodDataOut); runDemods[i]->getIQInputDataPipe()->push(demodDataOut);
} }
} }
@ -290,8 +290,8 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
doRefresh.store(true); doRefresh.store(true);
} }
int dataSize = data_in->data.size(); size_t dataSize = data_in->data.size();
int outSize = data_in->data.size(); size_t outSize = data_in->data.size();
if (outSize > dataOut.capacity()) { if (outSize > dataOut.capacity()) {
dataOut.reserve(outSize); dataOut.reserve(outSize);
@ -349,7 +349,7 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
} }
// Find nearest channel for each demodulator // Find nearest channel for each demodulator
for (int i = 0; i < nRunDemods; i++) { for (size_t i = 0; i < nRunDemods; i++) {
DemodulatorInstance *demod = runDemods[i]; DemodulatorInstance *demod = runDemods[i];
demodChannel[i] = getChannelAt(demod->getFrequency()); demodChannel[i] = getChannelAt(demod->getFrequency());
if (demod == activeDemod) { if (demod == activeDemod) {
@ -357,7 +357,7 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
} }
} }
for (int i = 0; i < nRunDemods; i++) { for (size_t i = 0; i < nRunDemods; i++) {
// cache channel usage refcounts // cache channel usage refcounts
if (demodChannel[i] >= 0) { if (demodChannel[i] >= 0) {
demodChannelActive[demodChannel[i]]++; demodChannelActive[demodChannel[i]]++;
@ -378,7 +378,7 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
demodDataOut->sampleRate = chanBw; demodDataOut->sampleRate = chanBw;
// Calculate channel buffer size // Calculate channel buffer size
int chanDataSize = (outSize/numChannels); size_t chanDataSize = (outSize/numChannels);
if (demodDataOut->data.size() != chanDataSize) { if (demodDataOut->data.size() != chanDataSize) {
if (demodDataOut->data.capacity() < chanDataSize) { if (demodDataOut->data.capacity() < chanDataSize) {
@ -400,13 +400,13 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
if (dcBuf.size() != chanDataSize) { if (dcBuf.size() != chanDataSize) {
dcBuf.resize(chanDataSize); dcBuf.resize(chanDataSize);
} }
for (int j = 0; j < chanDataSize; j++) { for (size_t j = 0; j < chanDataSize; j++) {
dcBuf[j] = dataOut[idx]; dcBuf[j] = dataOut[idx];
idx += numChannels; idx += numChannels;
} }
iirfilt_crcf_execute_block(dcFilter, &dcBuf[0], chanDataSize, &demodDataOut->data[0]); iirfilt_crcf_execute_block(dcFilter, &dcBuf[0], chanDataSize, &demodDataOut->data[0]);
} else { } else {
for (int j = 0; j < chanDataSize; j++) { for (size_t j = 0; j < chanDataSize; j++) {
demodDataOut->data[j] = dataOut[idx]; demodDataOut->data[j] = dataOut[idx];
idx += numChannels; idx += numChannels;
} }
@ -416,7 +416,7 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
iqActiveDemodVisualQueue->push(demodDataOut); iqActiveDemodVisualQueue->push(demodDataOut);
} }
for (int j = 0; j < nRunDemods; j++) { for (size_t j = 0; j < nRunDemods; j++) {
if (demodChannel[j] == i) { if (demodChannel[j] == i) {
DemodulatorInstance *demod = runDemods[j]; DemodulatorInstance *demod = runDemods[j];
demod->getIQInputDataPipe()->push(demodDataOut); demod->getIQInputDataPipe()->push(demodDataOut);
@ -424,4 +424,4 @@ void SDRPostThread::runPFBCH(SDRThreadIQData *data_in) {
} }
} }
} }
} }

View File

@ -43,7 +43,7 @@ private:
std::vector<long long> chanCenters; std::vector<long long> chanCenters;
long long chanBw; long long chanBw;
int nRunDemods; size_t nRunDemods;
std::vector<DemodulatorInstance *> runDemods; std::vector<DemodulatorInstance *> runDemods;
std::vector<int> demodChannel; std::vector<int> demodChannel;
std::vector<int> demodChannelActive; std::vector<int> demodChannelActive;

View File

@ -127,7 +127,7 @@ void SDRThread::init() {
SoapySDR::ArgInfoList devSettings = deviceInfo.load()->getSettingsArgInfo(); SoapySDR::ArgInfoList devSettings = deviceInfo.load()->getSettingsArgInfo();
if (devSettings.size()) { if (devSettings.size()) {
for (int j = 0; j < settingsInfo.size(); j++) { for (size_t j = 0; j < settingsInfo.size(); j++) {
if (settings.find(settingsInfo[j].key) != settings.end()) { if (settings.find(settingsInfo[j].key) != settings.end()) {
devSettings[j].value = settings[devSettings[j].key]; devSettings[j].value = settings[devSettings[j].key];
} }

View File

@ -43,7 +43,7 @@ DataElement::~DataElement() {
} }
} }
void DataElement::data_init(long data_size_in) { void DataElement::data_init(size_t data_size_in) {
if (data_val) { if (data_val) {
delete data_val; delete data_val;
data_val = NULL; data_val = NULL;
@ -62,11 +62,11 @@ int DataElement::getDataType() {
return data_type; return data_type;
} }
long DataElement::getDataSize() { size_t DataElement::getDataSize() {
return data_size; return data_size;
} }
int DataElement::getUnitSize() { unsigned int DataElement::getUnitSize() {
return unit_size; return unit_size;
} }
@ -170,7 +170,7 @@ return; \
int _compat[] = {__VA_ARGS__}; \ int _compat[] = {__VA_ARGS__}; \
if (data_type != enumtype) { \ if (data_type != enumtype) { \
bool compat = false; \ bool compat = false; \
for (int i = 0; i < sizeof(_compat)/sizeof(int); i++) { \ for (size_t i = 0; i < sizeof(_compat)/sizeof(int); i++) { \
if (_compat[i] == data_type) { \ if (_compat[i] == data_type) { \
compat = true; \ compat = true; \
break; \ break; \
@ -213,7 +213,7 @@ return; \
int _compat[] = {__VA_ARGS__}; \ int _compat[] = {__VA_ARGS__}; \
if (data_type != enumtype) { \ if (data_type != enumtype) { \
bool compat = false; \ bool compat = false; \
for (int i = 0; i < sizeof(_compat)/sizeof(int); i++) { \ for (size_t i = 0; i < sizeof(_compat)/sizeof(int); i++) { \
if (_compat[i] == data_type) { \ if (_compat[i] == data_type) { \
compat = true; \ compat = true; \
break; \ break; \
@ -275,7 +275,7 @@ void DataElement::get(string &str_in) throw (DataTypeMismatchException) {
} }
void DataElement::get(vector<string> &strvect_in) throw (DataTypeMismatchException) { void DataElement::get(vector<string> &strvect_in) throw (DataTypeMismatchException) {
long ptr; size_t ptr;
if (!data_type) if (!data_type)
return; return;
@ -313,7 +313,7 @@ if (!data_type || !unit_size) return; \
if (data_type != enumtype) { \ if (data_type != enumtype) { \
int _compat[] = {__VA_ARGS__}; \ int _compat[] = {__VA_ARGS__}; \
bool compat = false; \ bool compat = false; \
for (int i = 0; i < sizeof(_compat)/sizeof(int); i++) { \ for (size_t i = 0; i < sizeof(_compat)/sizeof(int); i++) { \
if (_compat[i] == data_type) { \ if (_compat[i] == data_type) { \
compat = true; \ compat = true; \
break; \ break; \
@ -326,7 +326,7 @@ if (data_type != enumtype) { \
std::cout << "Warning, data type mismatch for vector<" #datatype ">; " #datatype " size " << sizeof(datatype) << " is less than unit size " << unit_size << "; possible loss of data."; \ std::cout << "Warning, data type mismatch for vector<" #datatype ">; " #datatype " size " << sizeof(datatype) << " is less than unit size " << unit_size << "; possible loss of data."; \
} \ } \
datatype temp_val; \ datatype temp_val; \
long ptr = 0; \ size_t ptr = 0; \
while (ptr < data_size) { \ while (ptr < data_size) { \
temp_val = 0; \ temp_val = 0; \
memcpy(&temp_val, data_val + ptr, (unit_size > sizeof(datatype))?sizeof(datatype):unit_size); \ memcpy(&temp_val, data_val + ptr, (unit_size > sizeof(datatype))?sizeof(datatype):unit_size); \
@ -1551,7 +1551,7 @@ bool DataTree::SaveToFileXML(const std::string& filename) {
} }
*/ */
bool DataTree::SaveToFile(const std::string& filename, bool compress, int compress_level) { bool DataTree::SaveToFile(const std::string& filename, bool compress, int /* compress_level */) {
long dataSize, compressedSize, headerSize; long dataSize, compressedSize, headerSize;
char *serialized = nullptr, *hdr_serialized = nullptr, *compressed = nullptr; char *serialized = nullptr, *hdr_serialized = nullptr, *compressed = nullptr;
DataTree dtHeader; DataTree dtHeader;

View File

@ -119,12 +119,12 @@ class DataElement
{ {
private: private:
int data_type; int data_type;
long data_size; size_t data_size;
int unit_size; unsigned int unit_size;
char *data_val; char *data_val;
void data_init(long data_size_in); void data_init(size_t data_size_in);
public: public:
DataElement(); DataElement();
@ -132,8 +132,8 @@ public:
int getDataType(); int getDataType();
char *getDataPointer(); char *getDataPointer();
long getDataSize(); size_t getDataSize();
int getUnitSize(); unsigned int getUnitSize();
/* set overloads */ /* set overloads */
void set(const char &char_in); void set(const char &char_in);

View File

@ -47,7 +47,7 @@ void MouseTracker::OnMouseMoved(wxMouseEvent& event) {
lastMouseY = mouseY; lastMouseY = mouseY;
} }
void MouseTracker::OnMouseWheelMoved(wxMouseEvent& event) { void MouseTracker::OnMouseWheelMoved(wxMouseEvent& /* event */) {
// std::cout << "wheel?" << std::endl; // std::cout << "wheel?" << std::endl;
} }
@ -67,7 +67,7 @@ void MouseTracker::OnMouseDown(wxMouseEvent& event) {
isMouseDown = true; isMouseDown = true;
} }
void MouseTracker::OnMouseReleased(wxMouseEvent& event) { void MouseTracker::OnMouseReleased(wxMouseEvent& /* event */) {
isMouseDown = false; isMouseDown = false;
} }
@ -87,17 +87,17 @@ void MouseTracker::OnMouseRightDown(wxMouseEvent& event) {
isMouseRightDown = true; isMouseRightDown = true;
} }
void MouseTracker::OnMouseRightReleased(wxMouseEvent& event) { void MouseTracker::OnMouseRightReleased(wxMouseEvent& /* event */) {
isMouseRightDown = false; isMouseRightDown = false;
} }
void MouseTracker::OnMouseEnterWindow(wxMouseEvent& event) { void MouseTracker::OnMouseEnterWindow(wxMouseEvent& /* event */) {
isMouseInView = true; isMouseInView = true;
isMouseDown = false; isMouseDown = false;
isMouseRightDown = false; isMouseRightDown = false;
} }
void MouseTracker::OnMouseLeftWindow(wxMouseEvent& event) { void MouseTracker::OnMouseLeftWindow(wxMouseEvent& /* event */) {
isMouseDown = false; isMouseDown = false;
isMouseRightDown = false; isMouseRightDown = false;
isMouseInView = false; isMouseInView = false;

View File

@ -112,7 +112,7 @@ void TuningContext::DrawTuner(long long freq, int count, float displayPos, float
} }
void TuningContext::DrawTunerDigitBox(int index, int count, float displayPos, float displayWidth, RGBA4f c) { void TuningContext::DrawTunerDigitBox(int index, int count, float displayPos, float displayWidth, RGBA4f /* c */) {
GLint vp[4]; GLint vp[4];
glGetIntegerv( GL_VIEWPORT, vp); glGetIntegerv( GL_VIEWPORT, vp);
@ -152,7 +152,7 @@ int TuningContext::GetTunerDigitIndex(float mPos, int count, float displayPos, f
return count - index; return count - index;
} }
void TuningContext::DrawTunerBarIndexed(int start, int end, int count, float displayPos, float displayWidth, RGBA4f color, float alpha, bool top, void TuningContext::DrawTunerBarIndexed(int start, int end, int count, float displayPos, float displayWidth, RGBA4f color, float /* alpha */, bool top,
bool bottom) { bool bottom) {
float ofs = (displayWidth / (float) count); float ofs = (displayWidth / (float) count);
float p2 = displayPos + ofs * (float) (count - start + 1); float p2 = displayPos + ofs * (float) (count - start + 1);

View File

@ -49,7 +49,7 @@ WaterfallCanvas::WaterfallCanvas(wxWindow *parent, int *attribList) :
WaterfallCanvas::~WaterfallCanvas() { WaterfallCanvas::~WaterfallCanvas() {
} }
void WaterfallCanvas::setup(int fft_size_in, int waterfall_lines_in) { void WaterfallCanvas::setup(unsigned int fft_size_in, int waterfall_lines_in) {
if (fft_size == fft_size_in && waterfall_lines_in == waterfall_lines) { if (fft_size == fft_size_in && waterfall_lines_in == waterfall_lines) {
return; return;
} }
@ -60,7 +60,7 @@ void WaterfallCanvas::setup(int fft_size_in, int waterfall_lines_in) {
gTimer.start(); gTimer.start();
} }
void WaterfallCanvas::setFFTSize(int fft_size_in) { void WaterfallCanvas::setFFTSize(unsigned int fft_size_in) {
if (fft_size_in == fft_size) { if (fft_size_in == fft_size) {
return; return;
} }

View File

@ -19,8 +19,8 @@ public:
}; };
WaterfallCanvas(wxWindow *parent, int *attribList = NULL); WaterfallCanvas(wxWindow *parent, int *attribList = NULL);
void setup(int fft_size_in, int waterfall_lines_in); void setup(unsigned int fft_size_in, int waterfall_lines_in);
void setFFTSize(int fft_size_in); void setFFTSize(unsigned int fft_size_in);
~WaterfallCanvas(); ~WaterfallCanvas();
DragState getDragState(); DragState getDragState();
@ -60,7 +60,7 @@ private:
DragState dragState; DragState dragState;
DragState nextDragState; DragState nextDragState;
int fft_size, new_fft_size; unsigned int fft_size, new_fft_size;
int waterfall_lines; int waterfall_lines;
int dragOfs; int dragOfs;