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50 #include "gmx_fatal.h"
58 static real interpolate(real phi, real psi, t_shiftdata *sd)
60 int iphi, ipsi, iphi1, ipsi1;
61 real fphi, fpsi, wx0, wx1, wy0, wy1;
64 if (phi > 2*M_PI) phi -= 2*M_PI;
66 if (psi > 2*M_PI) psi -= 2*M_PI;
83 fphi -= iphi; /* Fraction (offset from gridpoint) */
92 iphi1 = (iphi+1) % sd->nx;
93 ipsi1 = (ipsi+1) % sd->ny;
95 return (sd->data[iphi] [ipsi] * wx0*wy0 +
96 sd->data[iphi1] [ipsi] * wx1*wy0 +
97 sd->data[iphi] [ipsi1] * wx0*wy1 +
98 sd->data[iphi1] [ipsi1] * wx1*wy1);
101 static void dump_sd(const char *fn, t_shiftdata *sd)
106 int nnx, nny, nfac = 4, nlevels = 20;
107 real phi, psi, *x_phi, *y_psi, **newdata;
109 t_rgb rlo = { 1, 0, 0 }, rhi = { 0, 0, 1 };
118 for (i = 0; (i < nnx); i++)
120 snew(newdata[i], nny);
121 phi = i*2*M_PI/(nnx-1);
122 x_phi[i] = phi*RAD2DEG-180;
123 for (j = 0; (j < nny); j++)
125 psi = j*2*M_PI/(nny-1);
128 y_psi[j] = psi*RAD2DEG-180;
130 /*if (((i % nfac) == 0) && ((j % nfac) == 0))
131 newdata[i][j] = sd->data[i/nfac][j/nfac];
133 newdata[i][j] = interpolate(phi, psi, sd);
134 lo = min(lo, newdata[i][j]);
135 hi = max(hi, newdata[i][j]);
138 sprintf(buf, "%s.xpm", fn);
139 fp = ffopen(buf, "w");
140 write_xpm(fp, 0, fn, fn, "Phi", "Psi", nnx, nny,
141 x_phi, y_psi, newdata, lo, hi, rlo, rhi, &nlevels);
142 for (i = 0; (i < nnx); i++)
151 static t_shiftdata *read_shifts(const char *fn)
160 if (2 != fscanf(fp, "%d%d", &nx, &ny))
162 gmx_fatal(FARGS, "Error reading from file %s", fn);
167 sd->dx = nx/(2*M_PI);
168 sd->dy = ny/(2*M_PI);
169 snew(sd->data, nx+1);
170 for (i = 0; (i <= nx); i++)
172 snew(sd->data[i], ny+1);
173 for (j = 0; (j < ny); j++)
177 sd->data[i][j] = sd->data[0][j];
181 if (1 != fscanf(fp, "%lf", &xx))
183 gmx_fatal(FARGS, "Error reading from file %s", fn);
188 sd->data[i][j] = sd->data[i][0];
201 static void done_shifts(t_shiftdata *sd)
205 for (i = 0; (i <= sd->nx); i++)
213 void do_pp2shifts(FILE *fp, int nf, int nlist, t_dlist dlist[], real **dih)
215 t_shiftdata *ca_sd, *co_sd, *ha_sd, *cb_sd;
220 /* Read the shift files */
221 ca_sd = read_shifts("ca-shift.dat");
222 cb_sd = read_shifts("cb-shift.dat");
223 ha_sd = read_shifts("ha-shift.dat");
224 co_sd = read_shifts("co-shift.dat");
226 fprintf(fp, "\n *** Chemical shifts from the chemical shift index ***\n");
227 please_cite(fp, "Wishart98a");
228 fprintf(fp, "%12s %10s %10s %10s %10s\n",
229 "Residue", "delta Ca", "delta Ha", "delta CO", "delta Cb");
230 for (i = 0; (i < nlist); i++)
232 if ((has_dihedral(edPhi, &(dlist[i]))) &&
233 (has_dihedral(edPsi, &(dlist[i]))))
235 Phi = dlist[i].j0[edPhi];
236 Psi = dlist[i].j0[edPsi];
237 ca = cb = co = ha = 0;
238 for (j = 0; (j < nf); j++)
243 ca += interpolate(phi, psi, ca_sd);
244 cb += interpolate(phi, psi, cb_sd);
245 co += interpolate(phi, psi, co_sd);
246 ha += interpolate(phi, psi, ha_sd);
248 fprintf(fp, "%12s %10g %10g %10g %10g\n",
249 dlist[i].name, ca/nf, ha/nf, co/nf, cb/nf);