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1 /*
2 * This file is part of the GROMACS molecular simulation package.
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37 #ifndef GMX_MATH_DO_FIT_H
38 #define GMX_MATH_DO_FIT_H
44 #ifdef __cplusplus
46 #endif
50 /* Returns RMSD or Rho (depending on bRho) over all atoms in index */
54 /* Returns the RMS Deviation betweem x and xp over all atoms in index */
57 /* Returns the RMS Deviation betweem x and xp over all atoms */
60 /* Returns size-independent Rho similarity parameter over all atoms in index
61 * Maiorov & Crippen, PROTEINS 22, 273 (1995).
62 */
65 /* Returns size-independent Rho similarity parameter over all atoms
66 * Maiorov & Crippen, PROTEINS 22, 273 (1995).
67 */
70 matrix R);
71 /* Calculates the rotation matrix R for which
72 * sum_i w_rls_i (xp_i - R x_i).(xp_i - R x_i)
73 * is minimal. ndim=3 gives full fit, ndim=2 gives xy fit.
74 * This matrix is also used do_fit.
75 * x_rotated[i] = sum R[i][j]*x[j]
76 */
79 /* Do a least squares fit of x to xp. Atoms which have zero mass
80 * (w_rls[i]) are not taken into account in fitting.
81 * This makes is possible to fit eg. on Calpha atoms and orient
82 * all atoms. The routine only fits the rotational part,
83 * therefore both xp and x should be centered round the origin.
84 */
87 /* Calls do_fit with ndim=3, thus fitting in 3D */
92 /* Put the center of mass of atoms in the origin for dimensions 0 to ndim.
93 * The center of mass is computed from the index ind_cm.
94 * When ind_cm!=NULL the COM is determined using ind_cm.
95 * When ind_cm==NULL the COM is determined for atoms 0 to ncm.
96 * When ind_reset!=NULL the coordinates indexed by ind_reset are reset.
97 * When ind_reset==NULL the coordinates up to nreset are reset.
98 */
103 /* Calls reset_x with ndim=3, thus resetting all dimesions */
105 #ifdef __cplusplus
106 }
107 #endif
109 #endif