Xmipp
v3.23.11-Nereus
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#include "xmippmodule.h"
#include "core/transformations_defines.h"
#include "core/metadata_sql.h"
#include "core/metadata_writemode.h"
#include "core/xmipp_datatype.h"
#include "core/xmipp_color.h"
#include "core/xmipp_image_base.h"
#include "core/axis_view.h"
#include "core/xmipp_random_mode.h"
#include "core/xmipp_macros.h"
Go to the source code of this file.
Macros | |
#define | ADD_CONST(label) addIntConstant(dict, #label, (long)label) |
#define | ADD_CONST2(name, label) addIntConstant(dict, name, (long)label) |
Functions | |
void | addIntConstant (PyObject *dict, const char *name, const long &value) |
void | addLabels (PyObject *dict) |
#define ADD_CONST | ( | label | ) | addIntConstant(dict, #label, (long)label) |
Definition at line 48 of file python_constants.cpp.
#define ADD_CONST2 | ( | name, | |
label | |||
) | addIntConstant(dict, name, (long)label) |
Definition at line 50 of file python_constants.cpp.
void addIntConstant | ( | PyObject * | dict, |
const char * | name, | ||
const long & | value | ||
) |
Definition at line 40 of file python_constants.cpp.
void addLabels | ( | PyObject * | dict | ) |
RELION labels
< ID for the area (or field of view). If one does not use (tilt) series, area would be the same as micrograph...
< Name for the area (or field of view). If one does not use (tilt) series, area would be the same as micrograph...
< B-factor
< linear scale-factor
< Sampling rate
< Microscope voltage (kV)
< Defocus U (Angstroms)
< Defocus V (Angstroms)
< Defocus angle (degrees)
< Spherical aberration
< Chromatic aberration
< Pixel size for detector as used in CTF-determination
< Energy loss
< ctffind3 FOM (CC) for quality of CTF-fit
< name of an image describing the CTF model
< Lens stability
< Magnification used for CTF-determination
< Convergence cone
< Longitudinal displacement
< Transversal displacemente
< Amplitude contrast
< CTF gain
< CTF value
< Phase-shift from a phase-plate (in degrees)
< Detector MTF value
Definition at line 52 of file python_constants.cpp.