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Commit eda5263e authored by Jakob Maljaars's avatar Jakob Maljaars
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Merge branch '32-more-google-style' into 'master' 

Resolve "Make file/function namings google compliant"

Closes #32

See merge request RD/EveryBeam!33
parents 1949af17 d7b1f71a
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1 merge request!33Resolve "Make file/function namings google compliant"
Pipeline #2779 passed
Stage: build-base
Stage: build-everybeam
Stage: oskar-comparison
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demo/beam-helper.cpp
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......@@ -3,7 +3,7 @@
#include <aocommon/imagecoordinates.h>
#include <fitsio.h>
#include "./../cpp/common/MathUtil.h"
#include "./../cpp/common/math_utils.h"
// #include "./../cpp/coords/ITRFDirection.h"
#include "./../cpp/coords/ITRFConverter.h"
......
demo/beam-helper.h
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#include "./../cpp/ElementResponse.h"
#include "./../cpp/Station.h"
#include "./../cpp/element_response.h"
#include "./../cpp/station.h"
#include "./../cpp/LofarMetaDataUtil.h"
#include "./../cpp/coords/coord_utils.h"
......
demo/comparison-oskar/main.cpp
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......@@ -29,7 +29,7 @@ int main(int argc, char** argv){
double y = (2.0*j)/(N-1) - 1.0;
double theta = asin(sqrt(x*x + y*y));
double phi = atan2(y,x);
element_response.response(0, freq, theta, phi, result_arr[i][j]);
element_response.Response(0, freq, theta, phi, result_arr[i][j]);
}
}
......
demo/tElementBeamCommon.h
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......@@ -26,7 +26,7 @@ void calculateElementBeams(everybeam::Station::Ptr& station,
// Compute gain
std::complex<double> gainMatrix[2][2] = {0.0};
if (std::isfinite(theta) && std::isfinite(phi)) {
elementResponse->response(a, frequency, theta, phi, gainMatrix);
elementResponse->Response(a, frequency, theta, phi, gainMatrix);
}
// Store gain
......
demo/tStation.cc
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#include <iostream>
#include "./../cpp/Station.h"
#include "./../cpp/station.h"
#include "./../cpp/LofarMetaDataUtil.h"
#include "./../cpp/common/MathUtil.h"
#include "./../cpp/common/math_utils.h"
#include "config.h"
......@@ -24,19 +24,19 @@ int main() {
// Element(station.get_element_response(),0)); auto antenna1 =
// Element::Ptr(new Element(station.get_element_response(),1));
//
// station.set_antenna(antenna0);
// station.SetAntenna(antenna0);
//
// std::cout << response[0][0] << std::endl;
//
// response = station.response(time, freq, direction);
// Response = station.Response(time, freq, direction);
//
// std::cout << response[0][0] << std::endl;
//
// auto beam_former = BeamFormer::Ptr(new BeamFormer());
// beam_former->add_antenna(antenna0);
// beam_former->add_antenna(antenna1);
// station.set_antenna(beam_former);
// response = station.response(time, freq, direction);
// beam_former->AddAntenna(antenna0);
// beam_former->AddAntenna(antenna1);
// station.SetAntenna(beam_former);
// Response = station.Response(time, freq, direction);
// std::cout << response[0][0] << std::endl;
//
......@@ -61,7 +61,7 @@ int main() {
auto d = direction;
d[1] = -0.2 + 0.04 * i;
d = normalize(d);
response = station->response(time, freq, d, freq_beamformer,
response = station->Response(time, freq, d, freq_beamformer,
station_pointing, tile_pointing);
std::cout << response[0][0] << " " << response[0][1] << " "
<< response[1][0] << " " << response[1][1] << " " << std::endl;
......
demo/tStationBeamCommon.h
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......@@ -21,7 +21,7 @@ void calculateStationBeams(std::vector<everybeam::Station::Ptr>& stations,
auto direction = itrfDirections[y * subgrid_size + x];
auto freq_beamformer = frequency;
matrix22c_t gainMatrix =
stations[s]->response(time, frequency, direction, freq_beamformer,
stations[s]->Response(time, frequency, direction, freq_beamformer,
stationDirection, tileDirection);
std::complex<float>* antBufferPtr = (*data_ptr)[s][y][x];
......
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