#include "waveform.h"
#include "CSVhelper.hpp"
#include <iostream>
#include <fstream>
#include <vector>
#include <string>
#include <numeric>
ArrayWaveform::ArrayParam::ArrayParam() {
this->samplingRate = 0;
this->freqResolution = 0;
}
ArrayWaveform::ArrayParam::ArrayParam(const ArrayParam& other) {
this->samplingRate = other.samplingRate;
this->freqResolution = other.freqResolution;
this->freqTones = other.freqTones;
this->phases = other.phases;
this->amplitudes = other.amplitudes;
}
void ArrayWaveform::ArrayParam::setSamplingRate(unsigned long sr) {
this->samplingRate = sr;
}
void ArrayWaveform::ArrayParam::setFreqResolution(unsigned long fr) {
this->freqResolution = fr;
}
void ArrayWaveform::ArrayParam::setFreqTone(
int centerFreq,
int freqSpacing,
int numTones
) {
int freqStart = centerFreq -
freqSpacing * int(std::floor(numTones / 2));
this->freqTones.setLinSpaced(
numTones,
freqStart,
freqStart + freqSpacing * (numTones-1)
);
}
void ArrayWaveform::ArrayParam::setFreqTone(const Eigen::VectorXd& tones) {
this->freqTones.resize(0);
this->freqTones.resize(tones.size());
this->freqTones = tones;
}
Eigen::VectorXd ArrayWaveform::ArrayParam::getFreqTone() {
return this->freqTones;
}
void ArrayWaveform::ArrayParam::setPhase(const Eigen::VectorXd& phases) {
this->phases.resize(0);
this->phases.resize((phases.size()));
this->phases = phases;
}
Eigen::VectorXd ArrayWaveform::ArrayParam::getPhase() {
return this->phases;
}
void ArrayWaveform::ArrayParam::setAmplitude(const Eigen::VectorXd& amplitudes) {
this->amplitudes.resize(0);
this->amplitudes.resize(amplitudes.size());
this->amplitudes = amplitudes;
}
Eigen::VectorXd ArrayWaveform::ArrayParam::getAmplitude() {
return this->amplitudes;
}
void ArrayWaveform::ArrayParam::setDefaultParam() {
if (this->freqTones.size() == 0) {return;}
auto numTones = this->freqTones.size();
this->setAmplitude(Eigen::VectorXd::Ones(numTones) * std::pow(2, 12));
this->setPhase(Eigen::VectorXd::Zero(numTones));
this->samplingRate = 614.4e6;
this->freqResolution = 1e3;
}
void ArrayWaveform::ArrayParam::saveParam(std::string fileName) {
const static Eigen::IOFormat csvFormat(
Eigen::FullPrecision,
Eigen::DontAlignCols,
",",
",",
""
);
std::ofstream saveFile(fileName);
if (saveFile.is_open()) {
saveFile << "samplingRate," << this->samplingRate << "\n";
saveFile << "freqResolution," << this->freqResolution << "\n";
saveFile << "freqTones,"
<< this->freqTones.format(csvFormat)
<< "\n";
saveFile << "phases,"
<< this->phases.format(csvFormat)
<< "\n";
saveFile << "amplitudes,"
<< this->amplitudes.format(csvFormat)
<< "\n";
saveFile.close();
}
}
void ArrayWaveform::ArrayParam::loadParam(std::string fileName) {
std::ifstream file(fileName);
int lineCounter = 0;
for (auto& line : CSVRange(file)) {
std::vector<int> lineDataI;
std::vector<double> lineDataD;
switch (lineCounter) {
case 0:
this->samplingRate = std::stoi(std::string(line[1]));
break;
case 1:
this->freqResolution = std::stoi(std::string(line[1]));
break;
case 2:
for (auto i = 1; i < line.size(); i++) {
lineDataI.push_back(std::stoi(std::string(line[i])));
}
this->freqTones.resize(lineDataI.size());
this->freqTones(lineDataI.data());
break;
case 3:
for (auto i = 1; i < line.size(); i++) {
lineDataD.push_back(std::stod(std::string(line[i])));
}
this->phases.resize(lineDataD.size());
this->phases(lineDataD.data());
break;
case 4:
for (auto i = 1; i < line.size(); i++) {
lineDataD.push_back(std::stod(std::string(line[i])));
}
this->amplitudes.resize(lineDataD.size());
this->amplitudes(lineDataD.data());
break;
}
lineCounter++;
}
}
void ArrayWaveform::ArrayParam::printParam() {
std::cout << "sampling rate: " << this->samplingRate << "\n";
std::cout << "frequency resolution: " << this->freqResolution << "\n\n";
std::cout << "frequency tones (MHz): " << "\n" << this->freqTones.array() / int(1e6) << "\n\n";
std::cout << "phases:" << "\n" << this->phases << "\n\n";
std::cout << "amplitudes:" << "\n" << this->amplitudes << "\n";
}
ulong ArrayWaveform::getMinSampleLen(
ulong samplingRate,
ulong freqResolution
) {
return 2 * samplingRate / std::gcd(samplingRate, freqResolution);
}
ulong ArrayWaveform::getSampleLen(
double tau,
ulong samplingRate,
ulong freqResolution
) {
ulong sampleLen = ulong(tau * samplingRate);
ulong minLen = getMinSampleLen(samplingRate, freqResolution);
return sampleLen % minLen == 0 ? sampleLen : (sampleLen / minLen + 1) * minLen;
}
double ArrayWaveform::setStaticSegment(
Eigen::Ref<Eigen::VectorXd> timeSeries,
double f,
double initPhase,
double amp
) {
Eigen::Ref<Eigen::ArrayXd> t = timeSeries.array();
t -= t(0);
double nextPhase = 2 * M_PI * f * (t(t.size() - 1) + t(1)) + initPhase;
timeSeries.array() = amp * Eigen::sin(2 * M_PI * f * t + initPhase);
return nextPhase;
}
double ArrayWaveform::setMovingSegment(
Eigen::Ref<Eigen::VectorXd> timeSeries,
double fInit,
double fFinal,
double initPhase,
double amp
) {
auto df = (fFinal - fInit) * 2 * M_PI;
auto sampleLen = timeSeries.size();
auto dt = timeSeries(1) - timeSeries(0);
auto tau = timeSeries(sampleLen - 1) - timeSeries(0) + dt;
auto accel = 4 * df / (tau * tau);
unsigned int midIdx = int(sampleLen / 2.0);
Eigen::Ref<Eigen::ArrayXd> segl = timeSeries(Eigen::seq(0, midIdx));
Eigen::Ref<Eigen::ArrayXd> segr = timeSeries(Eigen::seq(midIdx+1, sampleLen-1));
segr -= segl(0) + tau / 2; // it may seem more intuitive to use
// segr -= segr(0) here, but doing so
// will cause phase jump
segl -= segl(0);
segl = initPhase
+ 2 * M_PI * fInit * segl
+ accel / 6 * Eigen::pow(segl,3);
segr = segl(segl.size()-1)
+ (
2 * M_PI * fInit + accel / 2 * std::pow((tau / 2),2)
) * segr
+ accel / 2 * tau / 2 * Eigen::pow(segr, 2)
- accel / 6 * Eigen::pow(segr, 3);
double nextPhase = segr(segr.size() - 1) + dt * 2*M_PI * fFinal;
timeSeries = amp * Eigen::sin(timeSeries.array());
return nextPhase;
}
EigenVectorXi16 ArrayWaveform::getStaticWaveform(const ArrayParam& param) {
auto minSampleLen = 2 * param.samplingRate
/ std::gcd(param.samplingRate, param.freqResolution);
Eigen::VectorXd t = Eigen::VectorXd::LinSpaced(
minSampleLen,
0,
minSampleLen - 1
) / param.samplingRate;
Eigen::MatrixXd wfmMatrix = Eigen::sin(
((param.freqTones * t.transpose() * M_PI * 2).array().colwise()
+ param.phases.array())
).array().colwise() * param.amplitudes.array();
return wfmMatrix.colwise().sum().cast<int16_t>();
}
EigenVectorXi16 ArrayWaveform::getTrickWaveform(
const ArrayParam& param,
std::set<int> siteIndex,
double df,
double tauMove,
double tauStay
) {
if ((tauMove == 0 and tauStay == 0)
or siteIndex.empty()) {
return getStaticWaveform(param);
}
if (tauMove != 0 and tauStay != 0) {
tauStay = std::ceil((tauMove + tauStay) * df) / df - tauMove;
} else if (tauMove != 0) {
tauMove = std::ceil(tauMove * df) / df;
} else {
tauStay = std::ceil(tauStay * df) / df;
}
auto tauTotal = tauMove * 2 + tauStay;
ulong sampleLen = getSampleLen(tauTotal, param.samplingRate, param.freqResolution);
ulong moveLen = tauMove * param.samplingRate;
ulong stayLen = tauStay * param.samplingRate;
auto idxSeg0 = moveLen;
auto idxSeg1 = moveLen + stayLen;
auto idxSeg2 = moveLen + stayLen + moveLen;
auto t = Eigen::ArrayXd::LinSpaced(sampleLen, 0, sampleLen - 1) / param.samplingRate;
Eigen::MatrixXd wfmMat(sampleLen, param.freqTones.size()); // site wfm stored column by column
for (auto i = 0; i < param.freqTones.size(); i++) {
wfmMat.col(i) = t;
Eigen::Ref<Eigen::ArrayXd> siteWfm = wfmMat.col(i);
auto fInit = param.freqTones[i];
auto fFinal = fInit + df;
auto phi = param.phases[i];
auto amp = param.amplitudes[i];
if (siteIndex.contains(i)) {
if (tauMove != 0) {
phi = setMovingSegment(
siteWfm(Eigen::seq(0, idxSeg0 - 1)),
fInit, fFinal, phi, amp
);
}
if (tauStay != 0) {
phi = setStaticSegment(
siteWfm(Eigen::seq(idxSeg0, idxSeg1 - 1)),
fFinal, phi, amp
);
}
if (tauMove != 0) {
phi = setMovingSegment(
siteWfm(Eigen::seq(idxSeg1, idxSeg2 - 1)),
fFinal, fInit, phi, amp
);
}
setStaticSegment(
siteWfm(Eigen::seq(idxSeg2, siteWfm.size() - 1)),
fInit, phi, amp
);
} else {
setStaticSegment(siteWfm, fInit, phi, amp);
}
}
return wfmMat.rowwise().sum().cast<int16_t> ();
}
void ArrayWaveform::saveCSV(std::string fileName, EigenVectorXi16 wfm) {
const static Eigen::IOFormat csvFormat(
Eigen::FullPrecision,
Eigen::DontAlignCols,
"",
",",
""
);
std::ofstream saveFile(fileName);
if (saveFile.is_open()) {
saveFile << wfm.format(csvFormat);
saveFile.close();
}
}