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182 lines
6.4 KiB
C++
182 lines
6.4 KiB
C++
///////////////////////////////////////////////////////////////////////////////////
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// Copyright (C) 2012 maintech GmbH, Otto-Hahn-Str. 15, 97204 Hoechberg, Germany //
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// written by Christian Daniel //
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// Copyright (C) 2015-2020, 2022 Edouard Griffiths, F4EXB <f4exb06@gmail.com> //
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// //
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// This program is free software; you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation as version 3 of the License, or //
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// (at your option) any later version. //
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// //
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// This program is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License V3 for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with this program. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////
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#include <QtGlobal>
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#include "util/simpleserializer.h"
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#include "testmisettings.h"
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TestMIStreamSettings::TestMIStreamSettings()
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{
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resetToDefaults();
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}
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void TestMIStreamSettings::resetToDefaults()
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{
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m_centerFrequency = 435000*1000;
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m_frequencyShift = 0;
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m_sampleRate = 768*1000;
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m_log2Decim = 4;
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m_fcPos = FC_POS_CENTER;
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m_sampleSizeIndex = 0;
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m_amplitudeBits = 127;
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m_autoCorrOptions = AutoCorrNone;
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m_modulation = ModulationNone;
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m_modulationTone = 44; // 440 Hz
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m_amModulation = 50; // 50%
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m_fmDeviation = 50; // 5 kHz
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m_dcFactor = 0.0f;
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m_iFactor = 0.0f;
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m_qFactor = 0.0f;
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m_phaseImbalance = 0.0f;
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}
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TestMISettings::TestMISettings()
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{
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m_useReverseAPI = false;
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m_reverseAPIAddress = "127.0.0.1";
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m_reverseAPIPort = 8888;
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m_reverseAPIDeviceIndex = 0;
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m_streams.push_back(TestMIStreamSettings());
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m_streams.push_back(TestMIStreamSettings());
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}
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TestMISettings::TestMISettings(const TestMISettings& other) :
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m_streams(other.m_streams)
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{
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m_useReverseAPI = other.m_useReverseAPI;
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m_reverseAPIAddress = other.m_reverseAPIAddress;
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m_reverseAPIPort = other.m_reverseAPIPort;
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m_reverseAPIDeviceIndex = other.m_reverseAPIDeviceIndex;
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}
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void TestMISettings::resetToDefaults()
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{
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for (unsigned int i = 0; i < m_streams.size(); i++) {
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m_streams[i].resetToDefaults();
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}
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}
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QByteArray TestMISettings::serialize() const
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{
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SimpleSerializer s(1);
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s.writeBool(1, m_useReverseAPI);
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s.writeString(2, m_reverseAPIAddress);
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s.writeU32(3, m_reverseAPIPort);
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s.writeU32(4, m_reverseAPIDeviceIndex);
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for (unsigned int i = 0; i < m_streams.size(); i++)
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{
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s.writeS32(10 + 30*i, m_streams[i].m_frequencyShift);
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s.writeU32(11 + 30*i, m_streams[i].m_sampleRate);
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s.writeU32(12 + 30*i, m_streams[i].m_log2Decim);
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s.writeS32(13 + 30*i, (int) m_streams[i].m_fcPos);
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s.writeU32(14 + 30*i, m_streams[i].m_sampleSizeIndex);
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s.writeS32(15 + 30*i, m_streams[i].m_amplitudeBits);
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s.writeS32(16 + 30*i, (int) m_streams[i].m_autoCorrOptions);
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s.writeFloat(17 + 30*i, m_streams[i].m_dcFactor);
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s.writeFloat(18 + 30*i, m_streams[i].m_iFactor);
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s.writeFloat(19 + 30*i, m_streams[i].m_qFactor);
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s.writeFloat(20 + 30*i, m_streams[i].m_phaseImbalance);
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s.writeS32(21 + 30*i, (int) m_streams[i].m_modulation);
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s.writeS32(22 + 30*i, m_streams[i].m_modulationTone);
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s.writeS32(23 + 30*i, m_streams[i].m_amModulation);
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s.writeS32(24 + 30*i, m_streams[i].m_fmDeviation);
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}
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return s.final();
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}
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bool TestMISettings::deserialize(const QByteArray& data)
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{
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SimpleDeserializer d(data);
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if (!d.isValid())
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{
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resetToDefaults();
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return false;
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}
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if (d.getVersion() == 1)
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{
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int intval;
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uint32_t utmp;
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d.readBool(1, &m_useReverseAPI, false);
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d.readString(2, &m_reverseAPIAddress, "127.0.0.1");
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d.readU32(3, &utmp, 0);
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if ((utmp > 1023) && (utmp < 65535)) {
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m_reverseAPIPort = utmp;
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} else {
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m_reverseAPIPort = 8888;
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}
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d.readU32(4, &utmp, 0);
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m_reverseAPIDeviceIndex = utmp > 99 ? 99 : utmp;
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for (unsigned int i = 0; i < m_streams.size(); i++)
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{
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d.readS32(10 + 30*i, &m_streams[i].m_frequencyShift, 0);
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d.readU32(11 + 30*i, &m_streams[i].m_sampleRate, 768*1000);
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d.readU32(12 + 30*i, &m_streams[i].m_log2Decim, 4);
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d.readS32(13 + 30*i, &intval, 0);
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m_streams[i].m_fcPos = (TestMIStreamSettings::fcPos_t) intval;
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d.readU32(14 + 30*i, &m_streams[i].m_sampleSizeIndex, 0);
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d.readS32(15 + 30*i, &m_streams[i].m_amplitudeBits, 128);
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d.readS32(16 + 30*i, &intval, 0);
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if (intval < 0 || intval > (int) TestMIStreamSettings::AutoCorrLast) {
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m_streams[i].m_autoCorrOptions = TestMIStreamSettings::AutoCorrNone;
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} else {
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m_streams[i].m_autoCorrOptions = (TestMIStreamSettings::AutoCorrOptions) intval;
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}
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d.readFloat(17 + 30*i, &m_streams[i].m_dcFactor, 0.0f);
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d.readFloat(18 + 30*i, &m_streams[i].m_iFactor, 0.0f);
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d.readFloat(19 + 30*i, &m_streams[i].m_qFactor, 0.0f);
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d.readFloat(20 + 30*i, &m_streams[i].m_phaseImbalance, 0.0f);
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d.readS32(21 + 30*i, &intval, 0);
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if (intval < 0 || intval > (int) TestMIStreamSettings::ModulationLast) {
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m_streams[i].m_modulation = TestMIStreamSettings::ModulationNone;
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} else {
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m_streams[i].m_modulation = (TestMIStreamSettings::Modulation) intval;
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}
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d.readS32(22 + 30*i, &m_streams[i].m_modulationTone, 44);
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d.readS32(23 + 30*i, &m_streams[i].m_amModulation, 50);
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d.readS32(24 + 30*i, &m_streams[i].m_fmDeviation, 50);
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}
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return true;
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}
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else
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{
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resetToDefaults();
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return false;
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}
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}
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