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https://github.com/cjcliffe/CubicSDR.git
synced 2024-11-26 13:48:38 -05:00
Cleanup, stereo audio thread memory leak fix
This commit is contained in:
Charles J. Cliffe
parent
376ddfad98
commit
5e9414702d
@ -191,6 +191,10 @@ static int audioCallback(void *outputBuffer, void *inputBuffer, unsigned int nBu
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} else {
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for (int i = 0, iMax = src->currentInput->channels * nBufferFrames; i < iMax; i++) {
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if (src->audio_queue_ptr >= src->currentInput->data.size()) {
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if (src->currentInput) {
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src->currentInput->decRefCount();
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src->currentInput = NULL;
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}
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if (src->terminated) {
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return 1;
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}
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@ -34,12 +34,12 @@ void DemodulatorThread::threadMain() {
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msresamp_rrrf stereo_resampler = NULL;
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msresamp_crcf resampler = NULL;
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unsigned int m=5; // filter semi-length
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float slsl=60.0f; // filter sidelobe suppression level
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unsigned int m = 5; // filter semi-length
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float slsl = 60.0f; // filter sidelobe suppression level
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liquid_float_complex x, y;
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firhilbf firR2C = firhilbf_create(m,slsl);
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firhilbf firC2R = firhilbf_create(m,slsl);
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firhilbf firR2C = firhilbf_create(m, slsl);
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firhilbf firC2R = firhilbf_create(m, slsl);
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nco_crcf nco_shift = nco_crcf_create(LIQUID_NCO);
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float shift_freq = 0;
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@ -107,15 +107,31 @@ void DemodulatorThread::threadMain() {
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if (demod_output.size() != num_written) {
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if (demod_output.capacity() < num_written) {
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demod_output.reserve(num_written);
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demod_output_stereo.reserve(num_written);
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}
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demod_output.resize(num_written);
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demod_output_stereo.resize(num_written);
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}
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int audio_out_size = ceil((float) (num_written) * audio_resample_ratio);
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freqdem_demodulate_block(fdem, &agc_data[0], num_written, &demod_output[0]);
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if (audio_out_size != resampled_audio_output.size()) {
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if (resampled_audio_output.capacity() < audio_out_size) {
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resampled_audio_output.reserve(audio_out_size);
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}
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resampled_audio_output.resize(audio_out_size);
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}
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unsigned int num_audio_written;
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msresamp_rrrf_execute(audio_resampler, &demod_output[0], num_written, &resampled_audio_output[0], &num_audio_written);
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if (stereo) {
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if (demod_output_stereo.size() != num_written) {
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if (demod_output_stereo.capacity() < num_written) {
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demod_output_stereo.reserve(num_written);
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}
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demod_output_stereo.resize(num_written);
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}
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double freq = (2.0 * M_PI) * (((float) abs(38000)) / ((float) inp->bandwidth));
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@ -124,30 +140,20 @@ void DemodulatorThread::threadMain() {
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shift_freq = freq;
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}
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for (int i = 0; i < num_written; i++) {
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firhilbf_r2c_execute(firR2C,demod_output[i],&x);
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firhilbf_r2c_execute(firR2C, demod_output[i], &x);
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nco_crcf_mix_down(nco_shift, x, &y);
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nco_crcf_step(nco_shift);
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firhilbf_c2r_execute(firR2C,y,&demod_output_stereo[i]);
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firhilbf_c2r_execute(firR2C, y, &demod_output_stereo[i]);
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}
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}
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int audio_out_size = ceil((float) (num_written) * audio_resample_ratio);
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if (audio_out_size != resampled_audio_output.size()) {
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if (resampled_audio_output.capacity() < audio_out_size) {
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resampled_audio_output.reserve(audio_out_size);
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resampled_audio_output_stereo.reserve(audio_out_size);
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if (audio_out_size != resampled_audio_output_stereo.size()) {
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if (resampled_audio_output_stereo.capacity() < audio_out_size) {
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resampled_audio_output_stereo.reserve(audio_out_size);
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}
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resampled_audio_output_stereo.resize(audio_out_size);
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}
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resampled_audio_output.resize(audio_out_size);
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resampled_audio_output_stereo.resize(audio_out_size);
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}
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unsigned int num_audio_written;
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msresamp_rrrf_execute(audio_resampler, &demod_output[0], num_written, &resampled_audio_output[0], &num_audio_written);
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if (stereo) {
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msresamp_rrrf_execute(stereo_resampler, &demod_output_stereo[0], num_written, &resampled_audio_output_stereo[0], &num_audio_written);
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}
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@ -171,6 +177,9 @@ void DemodulatorThread::threadMain() {
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if (stereo) {
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ati->channels = 2;
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if (ati->data.capacity() < (num_audio_written * 2)) {
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ati->data.reserve(num_audio_written * 2);
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}
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ati->data.resize(num_audio_written * 2);
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for (int i = 0; i < num_audio_written; i++) {
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ati->data[i * 2] = (resampled_audio_output[i] - (resampled_audio_output_stereo[i]));
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@ -197,7 +206,7 @@ void DemodulatorThread::threadMain() {
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stereoSize = DEMOD_VIS_SIZE;
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}
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ati_vis->data.resize(stereoSize);
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ati_vis->channels = stereo?2:1;
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ati_vis->channels = stereo ? 2 : 1;
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for (int i = 0; i < stereoSize / 2; i++) {
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ati_vis->data[i] = (resampled_audio_output[i] - (resampled_audio_output_stereo[i]));
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@ -102,7 +102,7 @@ void SpectrumCanvas::setData(std::vector<liquid_float_complex> *data) {
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double b = out[n][1];
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double c = sqrt(a * a + b * b);
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n = (i == FFT_SIZE / 2) ? (FFT_SIZE / 2 + 1) : i;
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// n = (i == FFT_SIZE / 2) ? (FFT_SIZE / 2 + 1) : i;
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double x = out[FFT_SIZE / 2 + n][0];
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double y = out[FFT_SIZE / 2 + n][1];
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double z = sqrt(x * x + y * y);
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@ -245,7 +245,7 @@ void WaterfallCanvas::setData(std::vector<liquid_float_complex> *data) {
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double b = out[n][1];
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double c = sqrt(a * a + b * b);
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n = (i == FFT_SIZE / 2) ? (FFT_SIZE / 2 + 1) : i;
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// n = (i == FFT_SIZE / 2) ? (FFT_SIZE / 2 + 1) : i;
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double x = out[FFT_SIZE / 2 + n][0];
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double y = out[FFT_SIZE / 2 + n][1];
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double z = sqrt(x * x + y * y);
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