| IsoSpec::Marginal(3) | IsoSpec | IsoSpec::Marginal(3) |
IsoSpec::Marginal - The marginal distribution class (a subisotopologue).
#include <marginalTrek++.h>
Inherited by IsoSpec::LayeredMarginal, IsoSpec::MarginalTrek, and IsoSpec::PrecalculatedMarginal.
Marginal (const double *_masses, const double *_probs, int
_isotopeNo, int _atomCnt)
Class constructor. Marginal & operator= (const
Marginal &other)=delete
Marginal (const Marginal &other)
Copy constructor. Marginal (Marginal &&other)
Move constructor. virtual ~Marginal ()
Destructor. int get_isotopeNo () const
Get the number of isotopes of the investigated element. const double *
get_lProbs () const
double getLightestConfMass () const
Get the mass of the lightest subisotopologue. double
getHeaviestConfMass () const
Get the mass of the heaviest subisotopologue. double
getMonoisotopicConfMass () const
Get the mass of the monoisotopic subisotopologue. double getModeMass ()
The the mass of the mode subisotopologue. double getModeLProb ()
Get the log-probability of the mode subisotopologue. double
fastGetModeLProb ()
Get the log-probability of the mode subisotopologue. Results undefined if
ensureModeConf() wasn't called before. Conf computeModeConf () const
The the probability of the mode subisotopologue. double
getSmallestLProb () const
The the log-probability of the lightest subisotopologue. double
getAtomAverageMass () const
The average mass of a single atom. double getTheoreticalAverageMass ()
const
The theoretical average mass of the molecule. double variance () const
Calculate the variance of the theoretical distribution describing the
subisotopologue. double getLogSizeEstimate (double
logEllipsoidRadius) const
Return estimated logarithm of size of the marginal at a given ellipsoid
radius. void ensureModeConf ()
ISOSPEC_FORCE_INLINE double unnormalized_logProb (Conf
conf) const
Calculate the log-probability of a given subisotopologue. ISOSPEC_FORCE_INLINE
double logProb (Conf conf) const
const unsigned int isotopeNo
const unsigned int atomCnt
const double *const atom_lProbs
const double *const atom_masses
const double loggamma_nominator
Conf mode_conf
double mode_lprob
The marginal distribution class (a subisotopologue).
This class mostly provides some basic common API for subclasses, but itself is not abstract. This class represents the probability distribution generated by one element only -- a subisotopologue. For instance, it might be the distribution of C200, that might be part of, say, C200H402. It corresponds to the multinomial distribution, where each configuration can also be attributed a precise mass. The constructor method perform initial hill-climbing to find the most probable sub-isotopologue (the mode).
Definition at line 42 of file marginalTrek++.h.
Class constructor.
Parameters
Returns
Definition at line 165 of file marginalTrek++.cpp.
Copy constructor.
Definition at line 181 of file marginalTrek++.cpp.
Move constructor.
Definition at line 203 of file marginalTrek++.cpp.
Destructor.
Definition at line 224 of file marginalTrek++.cpp.
The the probability of the mode subisotopologue.
Returns
Definition at line 235 of file marginalTrek++.cpp.
Definition at line 168 of file marginalTrek++.h.
Get the log-probability of the mode subisotopologue. Results undefined if ensureModeConf() wasn't called before.
Definition at line 124 of file marginalTrek++.h.
Get the number of isotopes of the investigated element.
Returns
Definition at line 88 of file marginalTrek++.h.
Definition at line 90 of file marginalTrek++.h.
The average mass of a single atom.
Returns
Definition at line 281 of file marginalTrek++.cpp.
Get the mass of the heaviest subisotopologue. This is trivially obtained by considering all atomNo atoms to be the heaviest isotope possible.
Returns
Definition at line 259 of file marginalTrek++.cpp.
Get the mass of the lightest subisotopologue. This is trivially obtained by considering all atomNo atoms to be the lightest isotope possible.
Returns
Definition at line 250 of file marginalTrek++.cpp.
Return estimated logarithm of size of the marginal at a given ellipsoid radius.
Definition at line 301 of file marginalTrek++.cpp.
Get the log-probability of the mode subisotopologue.
Returns
Definition at line 121 of file marginalTrek++.h.
The the mass of the mode subisotopologue.
Returns
Definition at line 115 of file marginalTrek++.h.
Get the mass of the monoisotopic subisotopologue. The monoisotopic subisotopologue is defined as the molecule consiting only of the most likely isotope. This is frequently the lightest subisotopologue, making this frequently (but not always) equal to getLightestConfMass()
Definition at line 268 of file marginalTrek++.cpp.
The the log-probability of the lightest subisotopologue.
Returns
Definition at line 139 of file marginalTrek++.h.
The theoretical average mass of the molecule.
Returns
Definition at line 151 of file marginalTrek++.h.
Definition at line 160 of file marginalTrek++.h.
Calculate the log-probability of a given subisotopologue.
Parameters
Returns
Definition at line 159 of file marginalTrek++.h.
Calculate the variance of the theoretical distribution describing the subisotopologue.
Definition at line 289 of file marginalTrek++.cpp.
Table of log-probabilities of all the isotopeNo isotopes.
Definition at line 49 of file marginalTrek++.h.
Table of atomic masses of all the isotopeNo isotopes.
Definition at line 50 of file marginalTrek++.h.
The number of atoms of the given element.
Definition at line 48 of file marginalTrek++.h.
The number of isotopes of the given element.
Definition at line 47 of file marginalTrek++.h.
The constant nominator that appears in the expressions for the multinomial probabilities.
Definition at line 51 of file marginalTrek++.h.
A subisotopologue with most probability. If not unique, one of the representatives of that class of subisotopologues.
Definition at line 52 of file marginalTrek++.h.
The log-probability of the mode subisotopologue.
Definition at line 53 of file marginalTrek++.h.
Generated automatically by Doxygen for IsoSpec from the source code.
| Tue Jan 3 2023 | Version 2.2.1 |