/usr/include/relion-1.4/src/assembly.h is in librelion-dev-common 1.4+dfsg-3ubuntu1.
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* assembly.h
*
* Created on: Apr 16, 2013
* Author: "Sjors H.W. Scheres"
*/
#ifndef ASSEMBLY_H_
#define ASSEMBLY_H_
#include <cstdlib>
#include <cstdio>
#include <string>
#include <iostream>
#include <fstream>
#include <vector>
#include <algorithm>
#include "src/args.h"
#include "src/matrix2d.h"
/*
* Hierarchical model for a macromolecular assembly, e.g. a DNA origami object
*
* Assembly
* -> Molecule
* -> Residue
* -> Atom (either a true one or a coarse-grain pseudo-atom)
*
*
*/
class Atom
{
public:
// Name of this Atom
std::string name;
// Coordinates
Matrix1D<DOUBLE> coords;
// Occupancy
DOUBLE occupancy;
// B-factor
DOUBLE bfactor;
// Empty constructor
Atom()
{
clear();
}
// Named constructor
Atom(std::string in_name)
{
clear();
name = in_name;
}
// Destructor needed for work with vectors
~Atom()
{
clear();
}
// Initialize
void clear();
// Get the 3D corrdinates as a POint3D
Matrix1D<DOUBLE> getCoordinates();
};
class Residue
{
public:
// Name of this Residue
std::string name;
// Number of this Residue
int number;
// All the Atoms in this Residue
std::vector<Atom> atoms;
// Empty Constructor
Residue()
{
clear();
}
// Constructor
Residue(std::string in_name, int in_number)
{
clear();
name = in_name;
number = in_number;
}
// Destructor needed for work with vectors
~Residue()
{
clear();
}
// Initialize
void clear();
// Add an Atom to this Residue;
long int addAtom(std::string atomname, DOUBLE x, DOUBLE y, DOUBLE z, DOUBLE occ = 1.0, DOUBLE bfac = 0.0);
int numberOfAtoms()
{
return atoms.size();
}
};
class Molecule
{
public:
// Name of this Molecule
std::string name;
// Alternative name of this Molecule (either chainID or segID)
std::string alt_name;
// All the Residues in this Molecule
std::vector<Residue> residues;
// Empty Constructor
Molecule()
{
clear();
}
// Constructor
Molecule(std::string in_name, std::string in_alt_name="")
{
clear();
name = in_name;
alt_name = in_alt_name;
}
// Destructor needed for work with vectors
~Molecule()
{
clear();
}
// Initialize
void clear();
// Number of residues in the molecule
long int numberOfResidues()
{
return residues.size();
}
// Insert a Residue at the specified position in this Molecule
long int insertResidue(Residue &res, int pos);
// Add a Residue to this Molecule
long int addResidue(Residue &res);
// Add a Residue to this Molecule
long int addResidue(std::string name, int resnum);
// Insert a stretch of residues from another Molecule based on consecutive residue numbering
// If start and end residues are negative: just add the entire molecule
void insertResidues(Molecule add, int residue_start = -1, int residue_end = -1);
};
class Assembly
{
public:
// Name of this Assembly
std::string name;
// All the Molecules in this Assembly
std::vector<Molecule> molecules;
// Empty Constructor
Assembly()
{
clear();
}
// Named Constructor
Assembly(std::string in_name)
{
clear();
name = in_name;
}
// Copy constructor
Assembly(const Assembly& op)
{
clear();
*this = op;
}
// Destructor needed for work with vectors
~Assembly()
{
clear();
}
// Initialize
void clear();
// Add a Molecule to this Assembly
long int addMolecule(std::string name, std::string alt_name);
// Add a Molecule to this Assembly
long int addMolecule(Molecule &toadd);
// return number of Molecules in the Assembly
long int numberOfMolecules() const;
// Total number of Atoms
long int numberOfAtoms() const;
// Total number of Residues
long int numberOfResidues() const;
// Print some information about the assembly
void printInformation(std::ostream& out = std::cout) const;
// Read PDB format
void readPDB(std::string filename, bool use_segid_instead_of_chainid = false, bool do_sort = true);
// Write the Assembly to a PDB file
void writePDB(std::string filename);
// Combine this Assembly with another one
// If there are identical Molecule.name instances, add a number-suffix to the new Assembly's Molecule.name (in the segID)
void join(Assembly &tojoin);
// Make sure that all Residues within each Molecule are in order w.r.t. their residue number
void sortResidues();
// Break Molecules into separate ones if a break larger than maximum_residue_break occurs in the residue numbering
// TODO
void checkBreaksInResidueNumbering(int maximum_residue_break = 500);
// Apply a transformation (first rotation, then shift)
void applyTransformation(Matrix2D<DOUBLE> &mat, Matrix1D<DOUBLE> &shift);
};
#endif /* ASSEMBLY_H_ */
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