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Diff for /JSOC/proj/sharp/apps/sharp.c between version 1.21 and 1.32

version 1.21, 2014/02/18 23:35:31 version 1.32, 2015/01/23 19:21:09
Line 27 
Line 27 
  *              v0.6 Aug 12 2013  *              v0.6 Aug 12 2013
  *              v0.7 Jan 02 2014  *              v0.7 Jan 02 2014
  *              v0.8 Feb 12 2014  *              v0.8 Feb 12 2014
    *                              v0.9 Mar 04 2014
  *  *
  *      Notes:  *      Notes:
  *              v0.0  *              v0.0
Line 59 
Line 60 
  *              Added disambig to azimuth during error propagation  *              Added disambig to azimuth during error propagation
  *              Changed usage for disambig: bit 2 (radial acute) for full disk, bit 0 for patch  *              Changed usage for disambig: bit 2 (radial acute) for full disk, bit 0 for patch
  *              Fixed disambig cutout for patch: 0 for even, 7 for odd  *              Fixed disambig cutout for patch: 0 for even, 7 for odd
    *              v0.9
    *              Fixed unit
    *              Check whether in PATCH of FD mode, so the error propagation uses disambiguated azimuth or not
  *  *
  *  *
  *      Example Calls:  *      Example Calls:
Line 176  struct swIndex {
Line 180  struct swIndex {
         float totpot_err;         float totpot_err;
         float meanshear_angle_err;         float meanshear_angle_err;
         float Rparam;         float Rparam;
       float totfx;
       float totfy;
       float totfz;
       float totbsq;
       float epsx;
       float epsy;
       float epsz;
 }; };
  
 // Mapping method // Mapping method
Line 344  char *CutBunits[] = {"Mx/cm^2", " ", "cm
Line 355  char *CutBunits[] = {"Mx/cm^2", " ", "cm
     " ", " ", " ",     " ", " ", " ",
     " ", " ", " ",     " ", " ", " ",
     " ", " "};     " ", " "};
 char *CEABunits[] = {"Mx/cm^2", " ", "cm/s", "DN/s", " ",  char *CEABunits[] = {"Mx/cm^2", " ", "cm/s", "DN/s",
     "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2"};      "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", "Mx/cm^2", " "};      // Mar 4 2014 XS
  
 /* ========================================================================================================== */ /* ========================================================================================================== */
  
Line 353  char *module_name = "sharp";
Line 364  char *module_name = "sharp";
 int seed; int seed;
  
 int fullDisk;       // full disk mode int fullDisk;       // full disk mode
   int amb4err;      // Use azimuth disambiguation for error propagation, default is 0 for patch and 1 for FD
  
 ModuleArgs_t module_args[] = ModuleArgs_t module_args[] =
 { {
Line 364  ModuleArgs_t module_args[] =
Line 376  ModuleArgs_t module_args[] =
         {ARG_STRING, "sharp_cea", kNotSpecified, "Output Sharp CEA series."},         {ARG_STRING, "sharp_cea", kNotSpecified, "Output Sharp CEA series."},
         {ARG_STRING, "sharp_cut", kNotSpecified, "Output Sharp cutout series."},         {ARG_STRING, "sharp_cut", kNotSpecified, "Output Sharp cutout series."},
     {ARG_INT,    "seed", "987654", "Seed for the random number generator."},     {ARG_INT,    "seed", "987654", "Seed for the random number generator."},
       {ARG_INT,   "f_amb4err", "0", "Force using disambiguation in error propagation"},     // Mar 4 2014 XS
         {ARG_END}         {ARG_END}
 }; };
  
Line 393  int DoIt(void)
Line 406  int DoIt(void)
         sharpCutQuery = (char *) params_get_str(&cmdparams, "sharp_cut");         sharpCutQuery = (char *) params_get_str(&cmdparams, "sharp_cut");
  
     seed = params_get_int(&cmdparams, "seed");     seed = params_get_int(&cmdparams, "seed");
       int f_amb4err = params_get_int(&cmdparams, "f_amb4err");
  
         /* Get input data, check everything */         /* Get input data, check everything */
  
Line 407  int DoIt(void)
Line 421  int DoIt(void)
         SHOW("Harp mode\n");         SHOW("Harp mode\n");
     }     }
  
       // Mar 4 2014
       if (f_amb4err == 0) {         // no forcing, 0 for patch and 1 for FD
           amb4err = fullDisk ? 1 : 0;
       } else {
           amb4err = 1;
       }
       printf("amb4err=%d\n", amb4err);
   
     // Bharp point to B if full disk     // Bharp point to B if full disk
     if (getInputRS(&mharpRS, &bharpRS, mharpQuery, bharpQuery))     if (getInputRS(&mharpRS, &bharpRS, mharpQuery, bharpQuery))
         DIE("Input harp data error.");         DIE("Input harp data error.");
Line 1027  int findPosition(DRMS_Record_t *inRec, s
Line 1049  int findPosition(DRMS_Record_t *inRec, s
         float disk_lonc = drms_getkey_float(inRec, "CRLN_OBS", &status);         float disk_lonc = drms_getkey_float(inRec, "CRLN_OBS", &status);
  
         /* Center coord */         /* Center coord */
       // Changed into double Jun 16 2014 XS
  
         float minlon = drms_getkey_float(inRec, "LONDTMIN", &status); if (status) return 1;             // Stonyhurst lon          double minlon = drms_getkey_double(inRec, "LONDTMIN", &status); if (status) return 1;           // Stonyhurst lon
         float maxlon = drms_getkey_float(inRec, "LONDTMAX", &status); if (status) return 1;          double maxlon = drms_getkey_double(inRec, "LONDTMAX", &status); if (status) return 1;
         float minlat = drms_getkey_float(inRec, "LATDTMIN", &status); if (status) return 1;          double minlat = drms_getkey_double(inRec, "LATDTMIN", &status); if (status) return 1;
         float maxlat = drms_getkey_float(inRec, "LATDTMAX", &status); if (status) return 1;          double maxlat = drms_getkey_double(inRec, "LATDTMAX", &status); if (status) return 1;
  
         // A bug fixer for HARP (per M. Turmon)         // A bug fixer for HARP (per M. Turmon)
         // When AR is below threshold, "LONDTMIN", "LONDTMAX" will be wrong         // When AR is below threshold, "LONDTMIN", "LONDTMAX" will be wrong
Line 1062  int findPosition(DRMS_Record_t *inRec, s
Line 1085  int findPosition(DRMS_Record_t *inRec, s
         mInfo->yc = (maxlat + minlat) / 2.;         mInfo->yc = (maxlat + minlat) / 2.;
  
         /* Size */         /* Size */
       // Rounded to 1.d3 precision first. Jun 16 2014 XS
  
         mInfo->ncol = round((maxlon - minlon) / mInfo->xscale);          mInfo->ncol = round(round((maxlon - minlon) * 1.e3) / 1.e3 / mInfo->xscale);
         mInfo->nrow = round((maxlat - minlat) / mInfo->yscale);          mInfo->nrow = round(round((maxlat - minlat) * 1.e3) / 1.e3 / mInfo->yscale);
  
         return 0;         return 0;
  
Line 1417  int getBErr(float *bx_err, float *by_err
Line 1441  int getBErr(float *bx_err, float *by_err
                         if (sphere2img (lat, lon, disk_latc, disk_lonc, &xi, &zeta,                         if (sphere2img (lat, lon, disk_latc, disk_lonc, &xi, &zeta,
                                                         disk_xc, disk_yc, 1.0, pa, 0., 0., 0., 0.)) {                                                         disk_xc, disk_yc, 1.0, pa, 0., 0., 0., 0.)) {
                                 bx_err[ind_map] = DRMS_MISSING_FLOAT;                                 bx_err[ind_map] = DRMS_MISSING_FLOAT;
                                 bx_err[ind_map] = DRMS_MISSING_FLOAT;                                  by_err[ind_map] = DRMS_MISSING_FLOAT;
                                 bx_err[ind_map] = DRMS_MISSING_FLOAT;                                  bz_err[ind_map] = DRMS_MISSING_FLOAT;       // Mar 7
                                 continue;                                 continue;
                         }                         }
  
Line 1593  int readVectorBErr(DRMS_Record_t *inRec,
Line 1617  int readVectorBErr(DRMS_Record_t *inRec,
  
         // Add disambig, Feb 12 2014         // Add disambig, Feb 12 2014
  
         DRMS_Segment_t *inSeg = drms_segment_lookup(inRec, "disambig");          DRMS_Segment_t *inSeg;
         DRMS_Array_t *inArray_ambig = drms_segment_read(inSeg, DRMS_TYPE_CHAR, &status);      DRMS_Array_t *inArray_ambig;
   
       if (amb4err) {              // Mar 4 2014
   
           inSeg = drms_segment_lookup(inRec, "disambig");
           inArray_ambig = drms_segment_read(inSeg, DRMS_TYPE_CHAR, &status);
         if (status) return 1;         if (status) return 1;
         char *ambig = (char *)inArray_ambig->data;         char *ambig = (char *)inArray_ambig->data;
  
Line 1624  int readVectorBErr(DRMS_Record_t *inRec,
Line 1653  int readVectorBErr(DRMS_Record_t *inRec,
         }         }
   }   }
  
       }
   
         // Convert errors to variances, correlation coefficients to covariances         // Convert errors to variances, correlation coefficients to covariances
  
         for (int i = 0; i < FOURK2; i++) {         for (int i = 0; i < FOURK2; i++) {
Line 1648  int readVectorBErr(DRMS_Record_t *inRec,
Line 1679  int readVectorBErr(DRMS_Record_t *inRec,
         //         //
  
         for (int iSeg = 0; iSeg < 9; iSeg++) drms_free_array(inArrays[iSeg]);         for (int iSeg = 0; iSeg < 9; iSeg++) drms_free_array(inArrays[iSeg]);
         drms_free_array(inArray_ambig);         // Feb 12 2014          if (amb4err) drms_free_array(inArray_ambig);            // Feb 12; Mar 04 2014
  
         return 0;         return 0;
  
Line 1914  void computeSWIndex(struct swIndex *swKe
Line 1945  void computeSWIndex(struct swIndex *swKe
  
         // convert cdelt1_orig from degrees to arcsec         // convert cdelt1_orig from degrees to arcsec
         float cdelt1       = (atan((rsun_ref*cdelt1_orig*RADSINDEG)/(dsun_obs)))*(1/RADSINDEG)*(3600.);         float cdelt1       = (atan((rsun_ref*cdelt1_orig*RADSINDEG)/(dsun_obs)))*(1/RADSINDEG)*(3600.);
         int nx1 = nx*cdelt1/2;  
         int ny1 = ny*cdelt1/2;          //if (nx1 > floor((nx-1)/scale + 1) )
           //      DIE("X-dimension of output array in fsample() is too large.");
           //if (ny1 > floor((ny-1)/scale + 1) )
           //      DIE("Y-dimension of output array in fsample() is too large.");
  
         // Temp arrays         // Temp arrays
         float *bh      = (float *) (malloc(nxny * sizeof(float)));         float *bh      = (float *) (malloc(nxny * sizeof(float)));
Line 1939  void computeSWIndex(struct swIndex *swKe
Line 1973  void computeSWIndex(struct swIndex *swKe
         float *jz_err_squared = (float *) (malloc(nxny * sizeof(float)));         float *jz_err_squared = (float *) (malloc(nxny * sizeof(float)));
         float *jz_err_squared_smooth = (float *) (malloc(nxny * sizeof(float)));         float *jz_err_squared_smooth = (float *) (malloc(nxny * sizeof(float)));
         float *jz_rms_err = (float *) (malloc(nxny * sizeof(float)));         float *jz_rms_err = (float *) (malloc(nxny * sizeof(float)));
           float *err_term1  = (float *) (malloc(nxny * sizeof(float)));
           float *err_term2  = (float *) (malloc(nxny * sizeof(float)));
  
         // malloc some arrays for the R parameter calculation          // define some values for the R calculation
           int scale = round(2.0/cdelt1);
           int nx1 = nx/scale;
           int ny1 = ny/scale;
           int nxp = nx1+40;
           int nyp = ny1+40;
         float *rim = (float *)malloc(nx1*ny1*sizeof(float));         float *rim = (float *)malloc(nx1*ny1*sizeof(float));
         float *p1p0 = (float *)malloc(nx1*ny1*sizeof(float));         float *p1p0 = (float *)malloc(nx1*ny1*sizeof(float));
         float *p1n0 = (float *)malloc(nx1*ny1*sizeof(float));         float *p1n0 = (float *)malloc(nx1*ny1*sizeof(float));
         float *p1p = (float *)malloc(nx1*ny1*sizeof(float));         float *p1p = (float *)malloc(nx1*ny1*sizeof(float));
         float *p1n = (float *)malloc(nx1*ny1*sizeof(float));         float *p1n = (float *)malloc(nx1*ny1*sizeof(float));
         float *p1 = (float *)malloc(nx1*ny1*sizeof(float));         float *p1 = (float *)malloc(nx1*ny1*sizeof(float));
         float *pmap = (float *)malloc(nx1*ny1*sizeof(float));          float *pmap    = (float *)malloc(nxp*nyp*sizeof(float));
           float *p1pad   = (float *)malloc(nxp*nyp*sizeof(float));
           float *pmapn   = (float *)malloc(nx1*ny1*sizeof(float));
   
           // define some arrays for the lorentz force calculation
           float *fx = (float *) (malloc(nxny * sizeof(float)));
           float *fy = (float *) (malloc(nxny * sizeof(float)));
           float *fz = (float *) (malloc(nxny * sizeof(float)));
   
  
         //spaceweather quantities computed         //spaceweather quantities computed
         if (computeAbsFlux(bz_err, bz , dims, &(swKeys_ptr->absFlux), &(swKeys_ptr->mean_vf),  &(swKeys_ptr->mean_vf_err),         if (computeAbsFlux(bz_err, bz , dims, &(swKeys_ptr->absFlux), &(swKeys_ptr->mean_vf),  &(swKeys_ptr->mean_vf_err),
Line 1972  void computeSWIndex(struct swIndex *swKe
Line 2021  void computeSWIndex(struct swIndex *swKe
  
         computeB_total(bx_err, by_err, bz_err, bt_err, bx, by, bz, bt, dims, mask, bitmask);         computeB_total(bx_err, by_err, bz_err, bt_err, bx, by, bz, bt, dims, mask, bitmask);
  
         if (computeBtotalderivative(bt, dims, &(swKeys_ptr->mean_derivative_btotal), mask, bitmask, derx_bt, dery_bt, bt_err, &(swKeys_ptr->mean_derivative_btotal_err)))          if (computeBtotalderivative(bt, dims, &(swKeys_ptr->mean_derivative_btotal), mask, bitmask, derx_bt,
                                       dery_bt, bt_err, &(swKeys_ptr->mean_derivative_btotal_err)))
     {     {
                 swKeys_ptr->mean_derivative_btotal = DRMS_MISSING_FLOAT;                 swKeys_ptr->mean_derivative_btotal = DRMS_MISSING_FLOAT;
                 swKeys_ptr->mean_derivative_btotal_err = DRMS_MISSING_FLOAT;                 swKeys_ptr->mean_derivative_btotal_err = DRMS_MISSING_FLOAT;
     }     }
  
         if (computeBhderivative(bh, bh_err, dims, &(swKeys_ptr->mean_derivative_bh), &(swKeys_ptr->mean_derivative_bh_err), mask, bitmask, derx_bh, dery_bh))          if (computeBhderivative(bh, bh_err, dims, &(swKeys_ptr->mean_derivative_bh),
                                   &(swKeys_ptr->mean_derivative_bh_err), mask, bitmask, derx_bh, dery_bh))
     {     {
                 swKeys_ptr->mean_derivative_bh = DRMS_MISSING_FLOAT;                 swKeys_ptr->mean_derivative_bh = DRMS_MISSING_FLOAT;
         swKeys_ptr->mean_derivative_bh_err = DRMS_MISSING_FLOAT;         swKeys_ptr->mean_derivative_bh_err = DRMS_MISSING_FLOAT;
         }         }
  
         if (computeBzderivative(bz, bz_err, dims, &(swKeys_ptr->mean_derivative_bz), &(swKeys_ptr->mean_derivative_bz_err), mask, bitmask, derx_bz, dery_bz))          if (computeBzderivative(bz, bz_err, dims, &(swKeys_ptr->mean_derivative_bz), &(swKeys_ptr->mean_derivative_bz_err),
                                   mask, bitmask, derx_bz, dery_bz))
     {     {
                 swKeys_ptr->mean_derivative_bz = DRMS_MISSING_FLOAT; // If fail, fill in NaN                 swKeys_ptr->mean_derivative_bz = DRMS_MISSING_FLOAT; // If fail, fill in NaN
         swKeys_ptr->mean_derivative_bz_err = DRMS_MISSING_FLOAT;         swKeys_ptr->mean_derivative_bz_err = DRMS_MISSING_FLOAT;
     }     }
  
         computeJz(bx_err, by_err, bx, by, dims, jz, jz_err, jz_err_squared, mask, bitmask, cdelt1, rsun_ref, rsun_obs,         computeJz(bx_err, by_err, bx, by, dims, jz, jz_err, jz_err_squared, mask, bitmask, cdelt1, rsun_ref, rsun_obs,
               derx, dery);                    derx, dery, err_term1, err_term2);
  
  
     if(computeJzsmooth(bx, by, dims, jz, jz_smooth, jz_err, jz_rms_err, jz_err_squared_smooth, &(swKeys_ptr->mean_jz),     if(computeJzsmooth(bx, by, dims, jz, jz_smooth, jz_err, jz_rms_err, jz_err_squared_smooth, &(swKeys_ptr->mean_jz),
Line 2004  void computeSWIndex(struct swIndex *swKe
Line 2056  void computeSWIndex(struct swIndex *swKe
         swKeys_ptr->us_i_err           = DRMS_MISSING_FLOAT;         swKeys_ptr->us_i_err           = DRMS_MISSING_FLOAT;
         }         }
  
         if (computeAlpha(jz_err, bz_err, bz, dims, jz, jz_smooth, &(swKeys_ptr->mean_alpha), &(swKeys_ptr->mean_alpha_err), mask, bitmask, cdelt1, rsun_ref, rsun_obs))          if (computeAlpha(jz_err, bz_err, bz, dims, jz, jz_smooth, &(swKeys_ptr->mean_alpha), &(swKeys_ptr->mean_alpha_err),
                            mask, bitmask, cdelt1, rsun_ref, rsun_obs))
     {     {
                 swKeys_ptr->mean_alpha         = DRMS_MISSING_FLOAT;                 swKeys_ptr->mean_alpha         = DRMS_MISSING_FLOAT;
         swKeys_ptr->mean_alpha_err     = DRMS_MISSING_FLOAT;         swKeys_ptr->mean_alpha_err     = DRMS_MISSING_FLOAT;
     }     }
  
         if (computeHelicity(jz_err, jz_rms_err, bz_err, bz, dims, jz, &(swKeys_ptr->mean_ih), &(swKeys_ptr->mean_ih_err), &(swKeys_ptr->total_us_ih), &(swKeys_ptr->total_abs_ih),          if (computeHelicity(jz_err, jz_rms_err, bz_err, bz, dims, jz, &(swKeys_ptr->mean_ih), &(swKeys_ptr->mean_ih_err),
                               &(swKeys_ptr->total_us_ih), &(swKeys_ptr->total_abs_ih),
                         &(swKeys_ptr->total_us_ih_err), &(swKeys_ptr->total_abs_ih_err), mask, bitmask, cdelt1, rsun_ref, rsun_obs))                         &(swKeys_ptr->total_us_ih_err), &(swKeys_ptr->total_abs_ih_err), mask, bitmask, cdelt1, rsun_ref, rsun_obs))
     {     {
                 swKeys_ptr->mean_ih            = DRMS_MISSING_FLOAT;                 swKeys_ptr->mean_ih            = DRMS_MISSING_FLOAT;
Line 2038  void computeSWIndex(struct swIndex *swKe
Line 2092  void computeSWIndex(struct swIndex *swKe
         swKeys_ptr->totpot_err         = DRMS_MISSING_FLOAT;         swKeys_ptr->totpot_err         = DRMS_MISSING_FLOAT;
         }         }
  
   
         if (computeShearAngle(bx_err, by_err, bz_err, bx, by, bz, bpx, bpy, bpz, dims,         if (computeShearAngle(bx_err, by_err, bz_err, bx, by, bz, bpx, bpy, bpz, dims,
                                                   &(swKeys_ptr->meanshear_angle), &(swKeys_ptr->meanshear_angle_err), &(swKeys_ptr->area_w_shear_gt_45),                                                   &(swKeys_ptr->meanshear_angle), &(swKeys_ptr->meanshear_angle_err), &(swKeys_ptr->area_w_shear_gt_45),
                                                   mask, bitmask)) {                                mask, bitmask))
           {
                 swKeys_ptr->meanshear_angle    = DRMS_MISSING_FLOAT; // If fail, fill in NaN                 swKeys_ptr->meanshear_angle    = DRMS_MISSING_FLOAT; // If fail, fill in NaN
                 swKeys_ptr->area_w_shear_gt_45 = DRMS_MISSING_FLOAT;                 swKeys_ptr->area_w_shear_gt_45 = DRMS_MISSING_FLOAT;
         swKeys_ptr->meanshear_angle_err= DRMS_MISSING_FLOAT;         swKeys_ptr->meanshear_angle_err= DRMS_MISSING_FLOAT;
         }         }
  
         if (computeR(bz_err, los , dims, &(swKeys_ptr->Rparam), cdelt1, rim, p1p0, p1n0,         if (computeR(bz_err, los , dims, &(swKeys_ptr->Rparam), cdelt1, rim, p1p0, p1n0,
                      p1p, p1n, p1, pmap, nx1, ny1))                       p1p, p1n, p1, pmap, nx1, ny1, scale, p1pad, nxp, nyp, pmapn))
         {         {
                 swKeys_ptr->Rparam = DRMS_MISSING_FLOAT;                // If fail, fill in NaN                 swKeys_ptr->Rparam = DRMS_MISSING_FLOAT;                // If fail, fill in NaN
         }         }
  
  
           if (computeLorentz(bx, by, bz, fx, fy, fz, dims, &(swKeys_ptr->totfx), &(swKeys_ptr->totfy), &(swKeys_ptr->totfz), &(swKeys_ptr->totbsq),
              &(swKeys_ptr->epsx), &(swKeys_ptr->epsy), &(swKeys_ptr->epsz), mask, bitmask, cdelt1, rsun_ref, rsun_obs))
           {
                   swKeys_ptr->totfx             = DRMS_MISSING_FLOAT;
                   swKeys_ptr->totfy             = DRMS_MISSING_FLOAT;
                   swKeys_ptr->totfz             = DRMS_MISSING_FLOAT;
                   swKeys_ptr->totbsq            = DRMS_MISSING_FLOAT;
                   swKeys_ptr->epsx              = DRMS_MISSING_FLOAT;
                   swKeys_ptr->epsy              = DRMS_MISSING_FLOAT;
                   swKeys_ptr->epsz              = DRMS_MISSING_FLOAT;
   
           }
   
   
         // Clean up the arrays         // Clean up the arrays
  
         drms_free_array(bitmaskArray);          // Dec 18 2012 Xudong         drms_free_array(bitmaskArray);          // Dec 18 2012 Xudong
Line 2060  void computeSWIndex(struct swIndex *swKe
Line 2130  void computeSWIndex(struct swIndex *swKe
         drms_free_array(bxArray);         drms_free_array(bxArray);
         drms_free_array(byArray);         drms_free_array(byArray);
         drms_free_array(bzArray);         drms_free_array(bzArray);
           drms_free_array(losArray);              // Mar 7
           drms_free_array(bx_errArray);
           drms_free_array(by_errArray);
           drms_free_array(bz_errArray);
  
         free(bh); free(bt); free(jz); free(jz_smooth);         free(bh); free(bt); free(jz); free(jz_smooth);
         free(bpx); free(bpy); free(bpz);         free(bpx); free(bpy); free(bpz);
Line 2071  void computeSWIndex(struct swIndex *swKe
Line 2145  void computeSWIndex(struct swIndex *swKe
         free(jz_err_squared); free(jz_rms_err);         free(jz_err_squared); free(jz_rms_err);
         free(jz_err_squared_smooth);         free(jz_err_squared_smooth);
  
           // free the arrays that are related to the r calculation
         free(rim);         free(rim);
         free(p1p0);         free(p1p0);
         free(p1n0);         free(p1n0);
Line 2078  void computeSWIndex(struct swIndex *swKe
Line 2153  void computeSWIndex(struct swIndex *swKe
         free(p1n);         free(p1n);
         free(p1);         free(p1);
         free(pmap);         free(pmap);
           free(p1pad);
           free(pmapn);
  
           // free the arrays that are related to the lorentz calculation
           free(fx); free(fy); free(fz);
 } }
  
 /* /*
Line 2121  void setSWIndex(DRMS_Record_t *outRec, s
Line 2200  void setSWIndex(DRMS_Record_t *outRec, s
         drms_setkey_float(outRec, "ERRTPOT", swKeys_ptr->totpot_err);         drms_setkey_float(outRec, "ERRTPOT", swKeys_ptr->totpot_err);
         drms_setkey_float(outRec, "ERRMSHA", swKeys_ptr->meanshear_angle_err);         drms_setkey_float(outRec, "ERRMSHA", swKeys_ptr->meanshear_angle_err);
         drms_setkey_float(outRec, "R_VALUE", swKeys_ptr->Rparam);         drms_setkey_float(outRec, "R_VALUE", swKeys_ptr->Rparam);
       drms_setkey_float(outRec, "TOTFX",   swKeys_ptr->totfx);
       drms_setkey_float(outRec, "TOTFY",   swKeys_ptr->totfy);
       drms_setkey_float(outRec, "TOTFZ",   swKeys_ptr->totfz);
       drms_setkey_float(outRec, "TOTBSQ",  swKeys_ptr->totbsq);
       drms_setkey_float(outRec, "EPSX",    swKeys_ptr->epsx);
       drms_setkey_float(outRec, "EPSY",    swKeys_ptr->epsy);
       drms_setkey_float(outRec, "EPSZ",    swKeys_ptr->epsz);
 }; };
  
 /* /*
Line 2206  void setKeys(DRMS_Record_t *outRec, DRMS
Line 2292  void setKeys(DRMS_Record_t *outRec, DRMS
  
         }         }
  
           // Mar 19 XS
           if (fullDisk) {
                   drms_setkey_int(outRec, "AMBPATCH", 0);
                   drms_setkey_int(outRec, "AMBWEAK", 2);
           } else {
                   drms_setkey_int(outRec, "AMBPATCH", 1);
           }
   
        TIME val, trec, tnow, UNIX_epoch = -220924792.000; /* 1970.01.01_00:00:00_UTC */        TIME val, trec, tnow, UNIX_epoch = -220924792.000; /* 1970.01.01_00:00:00_UTC */
        tnow = (double)time(NULL);        tnow = (double)time(NULL);
        tnow += UNIX_epoch;        tnow += UNIX_epoch;
Line 2241  float nnb (float *f, int nx, int ny, dou
Line 2335  float nnb (float *f, int nx, int ny, dou
  
 } }
  
   
 /* ################## Wrapper for Jesper's rebin code ################## */ /* ################## Wrapper for Jesper's rebin code ################## */
  
 void frebin (float *image_in, float *image_out, int nx, int ny, int nbin, int gauss) void frebin (float *image_in, float *image_out, int nx, int ny, int nbin, int gauss)

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  Added in v.1.32
Karen Tian
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