/* * Routine to add dimensions and associated coordinate variables * to cudims and cuvars. * Also updates numbers of dims and vars */ int pp_add_dims_and_coord_vars( PPlist *xaxes, PPlist *yaxes, PPlist *zaxes, PPlist *taxes, int tmdimid, CuDim *cudims, CuVar *cuvars, int *ndimsp, int *nvarsp, PPlist *heaplist) { PPlist *axislist; PPaxistype axistype; int idim; /* dim number of given type */ int dimid; int varid; PPlisthandle handle; PPgenaxis *axis; /*JAK 2005-01-10 */ CuDim *dim; CuVar *var; /* PPdim *ppdim; */ PPvar *ppvar; char dimnamestem[CU_MAX_NAME], units[CU_MAX_NAME]; char *varnamea, *varnameb; char formulaterms[MAX_ATT_LEN+1]; PPlist *catts; varid = *nvarsp; dimid = *ndimsp; for (axistype = 0; axistype < num_axistype; axistype++) { switch(axistype){ case xaxistype: axislist = xaxes; break; case yaxistype: axislist = yaxes; break; case zaxistype: axislist = zaxes; break; case taxistype: axislist = taxes; break; default: pp_switch_bug("cdunifpp_process"); } pp_list_startwalk(axislist, &handle); idim = 0; while ((axis = pp_list_walk(&handle, 0)) != NULL) { dim = &cudims[dimid]; var = &cuvars[varid]; /* ppdim = (PPdim*) dim->internp; */ ppvar = (PPvar*) var->internp; dim->coord = var; axis->dimid = dimid; dim->len = pp_genaxis_len(axis); CKP( ppvar->data = pp_genaxis_getCF(axis, dimnamestem, units, ppvar->atts, heaplist) ); sprintf(dim->name, dimnamestem, idim); if (units != NULL) { strncpy(dim->units, units, CU_MAX_NAME); dim->units[CU_MAX_NAME] = '\0'; } strncpy(var->name, dim->name, CU_MAX_NAME); var->name[CU_MAX_NAME] = '\0'; var->ndims = 1; var->dims[0] = dimid; varid++; /* now add certain variables for hybrid_sigmap z axis */ if (axistype == zaxistype && pp_zaxis_lev_type(axis) == hybrid_sigmap_lev_type) { catts = ppvar->atts; /* attribute list for the main coord var */ /* Hybrid sigma-p A coefficient */ var = &cuvars[varid]; ppvar = (PPvar*) var->internp; sprintf(var->name, "z%d_hybrid_sigmap_acoeff", idim); varnamea = var->name; CKP( ppvar->data = pp_genaxis_to_values(axis, hybrid_sigmap_a_type, heaplist) ); CKI( pp_add_string_att(ppvar->atts, "units", "Pa", heaplist) ); CKI( pp_add_string_att(ppvar->atts, "long_name", "atmospheric hybrid sigma-pressure 'A' coefficient", heaplist) ); var->ndims = 1; var->dims[0] = dimid; varid++; /* Hybrid sigma-p B coefficient */ var = &cuvars[varid]; ppvar = (PPvar*) var->internp; sprintf(var->name, "z%d_hybrid_sigmap_bcoeff", idim); varnameb = var->name; CKP( ppvar->data = pp_genaxis_to_values(axis, hybrid_sigmap_b_type, heaplist) ); CKI( pp_add_string_att(ppvar->atts, "long_name", "atmospheric hybrid sigma-pressure 'B' coefficient", heaplist) ); var->ndims = 1; var->dims[0] = dimid; varid++; snprintf(formulaterms, MAX_ATT_LEN, "ap: %s b: %s ps: ps p0: p0", varnamea, varnameb); CKI( pp_add_string_att(catts, "formula_terms", formulaterms, heaplist) ); CKI( pp_add_string_att(catts, "standard_name", "atmosphere_hybrid_sigma_pressure_coordinate", heaplist) ); CKI( pp_add_string_att(catts, "comments", "The \"ps\" term in formula_terms is set to \"ps\" variable. " "This variable may or may not be provided.", heaplist) ); } /* now add certain variables for hybrid_height z axis */ if (axistype == zaxistype && pp_zaxis_lev_type(axis) == hybrid_height_lev_type) { catts = ppvar->atts; /* attribute list for the main coord var */ /* Hybrid height A coefficient */ var = &cuvars[varid]; ppvar = (PPvar*) var->internp; sprintf(var->name, "z%d_hybrid_height_acoeff", idim); varnamea = var->name; CKP( ppvar->data = pp_genaxis_to_values(axis, hybrid_height_a_type, heaplist) ); CKI( pp_add_string_att(ppvar->atts, "units", "m", heaplist) ); var->ndims = 1; var->dims[0] = dimid; varid++; /* Hybrid height B coefficient */ var = &cuvars[varid]; ppvar = (PPvar*) var->internp; sprintf(var->name, "z%d_hybrid_height_bcoeff", idim); varnameb = var->name; CKP( ppvar->data = pp_genaxis_to_values(axis, hybrid_height_b_type, heaplist) ); var->ndims = 1; var->dims[0] = dimid; varid++; snprintf(formulaterms, MAX_ATT_LEN, "a: %s b: %s orog: orography", varnamea, varnameb); CKI( pp_add_string_att(catts, "formula_terms", formulaterms, heaplist) ); CKI( pp_add_string_att(catts, "standard_name", "atmosphere_hybrid_sigma_pressure_coordinate", heaplist) ); CKI( pp_add_string_att(catts, "comments", "The \"orog\" term in formula_terms is set to \"orography\" variable. " "This variable may or may not be provided.", heaplist) ); } /* add the boundary variable for time mean */ if (axistype == taxistype && pp_taxis_is_time_mean(axis)) { catts = ppvar->atts; /* attribute list for the main coord var */ var = &cuvars[varid]; ppvar = (PPvar*) var->internp; sprintf(var->name, "time_bnd%d", idim); CKP( ppvar->data = pp_taxis_to_boundary_values(axis->axis, heaplist) ); var->ndims = 2; var->dims[0] = dimid; var->dims[1] = tmdimid; CKI( pp_add_string_att(catts, "bounds", var->name, heaplist) ); varid++; } dimid++; idim++; } /* end loop over axes of given */ } /* end loop over axis types */ *nvarsp = varid; *ndimsp = dimid; return 0; ERRBLKI("pp_add_dims_and_coord_vars"); }
int pp_process(CuFile *file) { int rec, nrec, at_start_rec, at_end_rec; PPfile *ppfile; PPfieldvar *fvar; PPrec *recp; PPhdr *hdrp; PPgenaxis *xaxis, *yaxis, *zaxis, *taxis; /* JAK 2005-01-05 */ PPlist *heaplist; PPlist *fieldvars; PPlisthandle handle, thandle; PPlist *gatts, *catts; int ndims, dimid; int idim; /* dim number of given type */ int have_time_mean, tmdimid; /* dimensions used for meaning (CF cell methods) */ CuDim *cudims,*dim; PPdim *ppdim; int nvars, varid, cvarid; int ncvars; /* coord vars */ int nfvars; /* field vars */ int nvrec; PPrec **recs, **vrecs; CuVar *cuvars, *var; PPvar *ppvar; PPlist *atts; PPlist *axislist; PPlist *xaxes, *yaxes, *taxes, *zaxes; /* JAK 2005-01-05 */ PPgenaxis *axis; /*JAK 2005-01-10 */ int have_hybrid_sigmap; PPaxistype axistype; int rotmapid, rotgridid; PPlist *rotgrids, *rotmaps; PProtmap *rotmap; PProtgrid *rotgrid; CuVar *lonvar, *latvar; PPvar *lonppvar, *latppvar; PPlandmask *landmask; char *varnamea, *varnameb; char dimnamestem[CU_MAX_NAME], units[CU_MAX_NAME]; char formulaterms[MAX_ATT_LEN+1]; int dont_free_horiz_axes; int added; int zindex,tindex,svindex; /* ------------------------------------------------------ */ /* initialisation constants which matter */ ncvars = 0; have_hybrid_sigmap = 0; have_time_mean = 0; svindex = 1; /* initialisation constants just to avoid compiler warnings * (rather than get accustomed to ignoring warnings) * but flow logic should mean that these vars do actually get * initialised elsewhere before use */ at_end_rec=0; xaxis=yaxis=NULL; fvar=NULL; zaxis=NULL; taxis=NULL; axislist=NULL; tmdimid=-1; dont_free_horiz_axes=0; /* ------------------------------------------------------ */ ppfile = file->internp; heaplist=ppfile->heaplist; nrec = ppfile->nrec; recs = ppfile->recs; /* initialise elements in the records before sorting */ CKI( pp_initialise_records(recs, nrec, heaplist) ); /* sort the records */ qsort(recs, nrec, sizeof(PPrec*), pp_compare_records); /* now sort out the list of variables and dimensions */ CKP( fieldvars=pp_list_new(heaplist) ); CKP( xaxes=pp_list_new(heaplist) ); CKP( yaxes=pp_list_new(heaplist) ); CKP( zaxes=pp_list_new(heaplist) ); CKP( taxes=pp_list_new(heaplist) ); CKP( rotmaps=pp_list_new(heaplist) ); CKP( rotgrids=pp_list_new(heaplist) ); /* before main loop over records, look for land mask */ for (rec=0; rec<nrec ; rec++) { recp = recs[rec]; hdrp = &recp->hdr; if (pp_var_is_land_mask(hdrp)) { CKP( landmask = pp_malloc(sizeof(PPlandmask),heaplist) ); CKI( pp_set_horizontal_axes(recp,ppfile,&xaxis,&yaxis,rotmaps,heaplist) ); CKP( landmask->data = pp_data_new(inttype,pp_genaxis_len(xaxis) * pp_genaxis_len(yaxis),heaplist) ); /* JAK 2005-01-05 */ /* read in land mask data values */ landmask->xaxis = xaxis; landmask->yaxis = yaxis; CKP( landmask->data->values=pp_read_data_record(recp,ppfile,heaplist) ); ppfile->landmask = landmask; } } /* ====== START LOOP OVER RECORDS ====== */ for (rec=0; rec<nrec ; rec++) { recp = recs[rec]; hdrp = &recp->hdr; /* we are at start record of a variable at the very start, or if at we were at the * end record last time */ at_start_rec = ( rec == 0 || at_end_rec ); /* we are at end record of a variable at the very end, or if the header shows a * difference from the next record which constitutes a different variable */ at_end_rec = ( rec == nrec-1 || pp_records_from_different_vars(recs[rec+1],recp)); /*------------------------------*/ /* allow for variables which are unsupported for some reason */ if (at_start_rec) if (pp_test_skip_var(hdrp, ppfile->landmask)) continue; /* ------- if (at_start_rec) puts("++++++ START OF VARIABLE +++++++++"); printf("processing record %d / %d\n",rec,nrec); pp_dump_header(hdrp); ------ */ if (at_start_rec) { /* ====== THINGS DONE ONLY AT START RECORD OF EACH VARIABLE ====== */ /* get PPvar structure, and initialise certain structure members for tidiness */ CKP( fvar=pp_malloc(sizeof(PPfieldvar), heaplist) ); CKP( fvar->axes=pp_list_new(heaplist) ); /* JAK 2005-01-05 */ fvar->firstrecno = rec; fvar->firstrec = recp; if (pp_get_var_compression(hdrp) == 2) { /* land/sea mask compression: for horiz axes use those of LSM */ xaxis = ppfile->landmask->xaxis; yaxis = ppfile->landmask->yaxis; dont_free_horiz_axes = 1; } else { CKI( pp_set_horizontal_axes(recp,ppfile,&xaxis,&yaxis,rotmaps,heaplist) ); dont_free_horiz_axes = 0; } CKP( zaxis=pp_genaxis_new(zaxis_type,zdir,heaplist) ); CKI( pp_zaxis_set(zaxis,hdrp) ); CKP( taxis=pp_genaxis_new(taxis_type,tdir,heaplist) ); CKI( pp_taxis_set(taxis,hdrp) ); } /* construct pp_lev struct, and add it to the z axis if not already present * (could already be present if field has multiple times on each level) */ /* ====== THINGS DONE FOR EVERY PP RECORD ====== */ CKI( pp_zaxis_add(zaxis, recp->lev, &zindex, heaplist) ); recp->zindex = zindex; CKI( pp_taxis_add(taxis, recp->time, &tindex, heaplist) ); recp->tindex = tindex; /* ===================================================== */ if (at_end_rec) { /* ====== THINGS DONE ONLY AT END RECORD OF EACH VARIABLE ====== */ fvar->lastrecno = rec; nvrec = fvar->lastrecno - fvar->firstrecno + 1; vrecs = recs + fvar->firstrecno; /* now if the axes are not regular, free the axes, split the variable into a number of variables and try again... */ if (pp_set_disambig_index(zaxis, taxis, vrecs, nvrec, svindex)) { /* increment the supervar index, used later to show the connection between * the separate variables into which this one will be split */ svindex++; /* now re-sort this part of the record list, now that we have set the disambig index */ qsort(vrecs, nvrec, sizeof(PPrec*), pp_compare_records); /* now go back to the start record of the variable; set to one less because it * will get incremented in the "for" loop reinitialisation */ rec = fvar->firstrecno - 1; /* and free the stuff assoc with the var we won't be using */ if (!dont_free_horiz_axes) { CKI( pp_genaxis_free(xaxis,heaplist) ); CKI( pp_genaxis_free(yaxis,heaplist) ); } CKI( pp_genaxis_free(zaxis,heaplist) ); CKI( pp_genaxis_free(taxis,heaplist) ); CKI( pp_free(fvar,heaplist) ); continue; } /*------------------------------------------------------------*/ /* * For each axis, see if it matches an axis which already exists from a previous * variable. * * If so, then free the structure and point to the existing occurrence instead. * * If not, then add to the list. */ /* x */ CKI( added = pp_list_add_or_find(xaxes, &xaxis, pp_genaxis_compare, 0, (dont_free_horiz_axes ? NULL : (free_func) pp_genaxis_free), NULL, heaplist) ); if (added) ncvars++; /* y */ CKI( added = pp_list_add_or_find(yaxes, &yaxis, pp_genaxis_compare, 0, (dont_free_horiz_axes ? NULL : (free_func) pp_genaxis_free), NULL, heaplist) ); if (added) ncvars++; /* z */ CKI( added = pp_list_add_or_find(zaxes, &zaxis, pp_genaxis_compare, 0, (free_func) pp_genaxis_free, NULL, heaplist) ); if (added) { ncvars++; if (pp_zaxis_lev_type(zaxis) == hybrid_sigmap_lev_type) { /* two more coord vars (a and b coeffs) */ ncvars+=2; have_hybrid_sigmap=1; } if (pp_zaxis_lev_type(zaxis) == hybrid_height_lev_type) { /* two more coord vars (a and b coeffs) */ ncvars+=2; } } /* t */ CKI( added = pp_list_add_or_find(taxes, &taxis, pp_genaxis_compare, 0, (free_func) pp_genaxis_free, NULL, heaplist) ); if (added) { ncvars++; if (pp_taxis_is_time_mean(taxis)) { /* need to make sure we have the mean dim (size 2), * also one more coordinate var */ have_time_mean=1; ncvars++; } } /* associate var with these axes */ CKI( pp_list_add(fvar->axes,xaxis,heaplist) ); CKI( pp_list_add(fvar->axes,yaxis,heaplist) ); CKI( pp_list_add(fvar->axes,zaxis,heaplist) ); CKI( pp_list_add(fvar->axes,taxis,heaplist) ); /* get the rotated grid, if any * (NB this is done *after* the pp_list_add_or_find stuff above, because * otherwise the axis pointers could get orphaned if the axes are found to * be duplicates) */ CKP( fvar->rotgrid = pp_get_rotgrid(xaxis,yaxis,rotgrids,heaplist) ); /* add the variable */ CKI( pp_list_add(fieldvars, fvar, heaplist) ); /* ===================================================== */ } } /* ==================================================================== * Having completed the loop over records, we now know the number of * dimensions and variables, so we can finally do the relevant calls * to allocate these arrays and populate them usefully. * ==================================================================== */ /* FIRST ALLOCATE THE ARRAYS, and initialise some values */ nfvars = pp_list_size(fieldvars); if (nfvars <= 0) { CuError(CU_EOPEN,"No valid fields in file\n"); ERR; /* not the most elegant dealing with this error - ideally would free this file */ } ndims = pp_list_size(xaxes) + pp_list_size(yaxes) + pp_list_size(zaxes) + pp_list_size(taxes); if (have_time_mean){ tmdimid=ndims; ndims++; } if (have_hybrid_sigmap) { /* will need a scalar variable called "p0" */ ncvars++; } CKP( cudims = CuCreateDims(file,ndims) ); /* need a grid_mapping variable for every rotation mapping, * and need lon and lat variables for every rotated grid */ ncvars += pp_list_size(rotmaps) + 2*pp_list_size(rotgrids); nvars = ncvars + nfvars; CKP( cuvars = CuCreateVars(file,nvars) ); for (dimid=0; dimid<ndims; dimid++) { dim=&cudims[dimid]; dim->var = (CuVar*)0; dim->coord = (CuVar*)0; dim->datatype = realtype; dim->dimtype = CuGlobalDim; /* uncomment if internal structure is to be used * CKP( dim->internp = pp_malloc(sizeof(PPdim), heaplist) ); * ppdim=(PPdim*)dim->internp; */ } for (varid=0; varid<nvars; varid++) { var=&cuvars[varid]; var->datatype = realtype; CKP( var->internp = pp_malloc(sizeof(PPvar), heaplist) ); ppvar=(PPvar*)var->internp; ppvar->firstrecno=-1; ppvar->lastrecno=-1; ppvar->data=NULL; CKP( ppvar->atts = pp_list_new(heaplist) ); } /* * NOW POPULATE THE STRUCTURES * * The procedure will be to loop over all the axes, adding dimensions and * variables associated with those axes. * * Having done that, any dimensions not associated with axes will be added, * and then the field variables will be added. */ dimid=0; varid=0; for (axistype=0; axistype<num_axistype; axistype++) { switch(axistype){ case xaxistype: axislist=xaxes; break; case yaxistype: axislist=yaxes; break; case zaxistype: axislist=zaxes; break; case taxistype: axislist=taxes; break; default: pp_switch_bug("cdunifpp_process"); } pp_list_startwalk(axislist,&handle); idim=0; while ((axis=pp_list_walk(&handle,0))!=NULL) { dim=&cudims[dimid]; var=&cuvars[varid]; ppdim=(PPdim*) dim->internp; ppvar=(PPvar*) var->internp; dim->coord = var; axis->dimid=dimid; dim->len=pp_genaxis_len(axis); CKP( ppvar->data=pp_genaxis_getCF(axis,dimnamestem,units,ppvar->atts,heaplist) ); sprintf(dim->name,dimnamestem,idim); if (units != NULL) { strncpy(dim->units,units,CU_MAX_NAME); dim->units[CU_MAX_NAME]='\0'; } strncpy(var->name,dim->name,CU_MAX_NAME); var->name[CU_MAX_NAME]='\0'; var->ndims=1; var->dims[0] = dimid; varid++; /* now add certain variables for hybrid_sigmap z axis */ if (axistype == zaxistype && pp_zaxis_lev_type(axis) == hybrid_sigmap_lev_type) { catts=ppvar->atts; /* attribute list for the main coord var */ /* Hybrid sigma-p A coefficient */ var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"z%d_hybrid_sigmap_acoeff",idim); varnamea=var->name; CKP( ppvar->data = pp_genaxis_to_values(axis,hybrid_sigmap_a_type,heaplist) ); CKI( pp_add_string_att(ppvar->atts,"units","Pa",heaplist) ); CKI( pp_add_string_att(ppvar->atts,"long_name", "atmospheric hybrid sigma-pressure 'A' coefficient",heaplist) ); var->ndims=1; var->dims[0] = dimid; varid++; /* Hybrid sigma-p B coefficient */ var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"z%d_hybrid_sigmap_bcoeff",idim); varnameb=var->name; CKP( ppvar->data = pp_genaxis_to_values(axis,hybrid_sigmap_b_type,heaplist) ); CKI( pp_add_string_att(ppvar->atts,"long_name", "atmospheric hybrid sigma-pressure 'B' coefficient",heaplist) ); var->ndims=1; var->dims[0] = dimid; varid++; snprintf(formulaterms,MAX_ATT_LEN,"ap: %s b: %s ps: ps p0: p0",varnamea,varnameb); CKI( pp_add_string_att(catts,"formula_terms",formulaterms,heaplist) ); CKI( pp_add_string_att(catts,"standard_name","atmosphere_hybrid_sigma_pressure_coordinate",heaplist) ); CKI( pp_add_string_att(catts,"comments", "The \"ps\" term in formula_terms is set to \"ps\" variable. " "This variable may or may not be provided.",heaplist) ); } /* now add certain variables for hybrid_height z axis */ if (axistype == zaxistype && pp_zaxis_lev_type(axis) == hybrid_height_lev_type) { catts=ppvar->atts; /* attribute list for the main coord var */ /* Hybrid height A coefficient */ var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"z%d_hybrid_height_acoeff",idim); varnamea=var->name; CKP( ppvar->data = pp_genaxis_to_values(axis,hybrid_height_a_type,heaplist) ); CKI( pp_add_string_att(ppvar->atts,"units","m",heaplist) ); var->ndims=1; var->dims[0] = dimid; varid++; /* Hybrid height B coefficient */ var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"z%d_hybrid_height_bcoeff",idim); varnameb=var->name; CKP( ppvar->data = pp_genaxis_to_values(axis,hybrid_height_b_type,heaplist) ); var->ndims=1; var->dims[0] = dimid; varid++; snprintf(formulaterms,MAX_ATT_LEN,"a: %s b: %s orog: orography",varnamea,varnameb); CKI( pp_add_string_att(catts,"formula_terms",formulaterms,heaplist) ); CKI( pp_add_string_att(catts,"standard_name","atmosphere_hybrid_sigma_pressure_coordinate",heaplist) ); CKI( pp_add_string_att(catts,"comments", "The \"orog\" term in formula_terms is set to \"orography\" variable. " "This variable may or may not be provided.",heaplist) ); } /* add the boundary variable for time mean */ if (axistype == taxistype && pp_taxis_is_time_mean(axis)) { catts=ppvar->atts; /* attribute list for the main coord var */ var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"time_bnd%d",idim); CKP( ppvar->data = pp_taxis_to_boundary_values(axis->axis,heaplist) ); var->ndims=2; var->dims[0]=dimid; var->dims[1]=tmdimid; CKI( pp_add_string_att(catts,"bounds",var->name,heaplist) ); varid++; } dimid++; idim++; } /* end loop over axes of given */ } /* end loop over axis types */ /* add nv dimension if we had time mean */ if (have_time_mean) { dim=&cudims[dimid]; strcpy(dim->name,"nv"); dim->len=2; /* Should have tmdimid=dimid, but actually we already set it above (it evaluates to ndims) * as we needed it before we got here. So just do a check here. */ if ( tmdimid != dimid ) { pp_error_mesg("cdunifpp_process","ID wrong for 'nv' dimension?"); ERR; } dimid++; } /* add p0 variable if we had hybrid_sigmap coords */ if (have_hybrid_sigmap) { var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"p0"); var->ndims=0; CKI( pp_add_string_att(ppvar->atts,"long_name", "reference pressure value for atmospheric hybrid sigma-pressure coordinates", heaplist) ); /* single value consisting of p0 */ CKP( ppvar->data = pp_data_new(realtype,1,heaplist) ); ((Freal*)(ppvar->data->values))[0]=reference_pressure; varid++; } /* add any rotated_pole variables */ rotmapid=0; pp_list_startwalk(rotmaps,&handle); while ((rotmap=pp_list_walk(&handle,0))!=NULL) { var=&cuvars[varid]; ppvar=(PPvar*) var->internp; sprintf(var->name,"rotated_pole%d",rotmapid); strncpy(rotmap->name,var->name,CU_MAX_NAME); rotmap->name[CU_MAX_NAME]='\0'; /* single value of arbitrary type; set as integer = 0 */ var->datatype=inttype; var->ndims=0; CKP( ppvar->data = pp_data_new(inttype,1,heaplist) ); ((Freal*)(ppvar->data->values))[0]=0; /* and add attributes */ catts=ppvar->atts; CKI( pp_add_string_att(catts,"grid_mapping_name","rotated_latitude_longitude",heaplist) ); CKI( pp_add_att(catts,"grid_north_pole_longitude",realtype,1,&rotmap->pole_lon,heaplist) ); CKI( pp_add_att(catts,"grid_north_pole_latitude",realtype,1,&rotmap->pole_lat,heaplist) ); CKI( pp_add_att(catts,"north_pole_grid_longitude",realtype,1,&rotmap->truepole_gridlon,heaplist) ); rotmapid++; varid++; } /* and add any lon, lat variables for rotated grids */ rotgridid=0; pp_list_startwalk(rotgrids,&handle); while ((rotgrid=pp_list_walk(&handle,0))!=NULL) { lonvar=&cuvars[varid]; lonppvar=(PPvar*) lonvar->internp; varid++; latvar=&cuvars[varid]; latppvar=(PPvar*) latvar->internp; varid++; xaxis = rotgrid->xaxis; yaxis = rotgrid->yaxis; sprintf(lonvar->name,"true_lon%d",rotgridid); sprintf(latvar->name,"true_lat%d",rotgridid); sprintf(rotgrid->coords,"%s %s",lonvar->name,latvar->name); lonvar->ndims=2; latvar->ndims=2; lonvar->dims[0]=yaxis->dimid; latvar->dims[0]=yaxis->dimid; lonvar->dims[1]=xaxis->dimid; latvar->dims[1]=xaxis->dimid; CKI( pp_calc_rot_grid(rotgrid,&lonppvar->data,&latppvar->data,heaplist) ); CKI( pp_add_string_att(lonppvar->atts,"long_name","longitude",heaplist) ); CKI( pp_add_string_att(latppvar->atts,"long_name","latitude",heaplist) ); CKI( pp_add_string_att(lonppvar->atts,"standard_name","longitude",heaplist) ); CKI( pp_add_string_att(latppvar->atts,"standard_name","latitude",heaplist) ); CKI( pp_add_string_att(lonppvar->atts,"units","degrees_east",heaplist) ); CKI( pp_add_string_att(latppvar->atts,"units","degrees_north",heaplist) ); CKI( pp_add_att(lonppvar->atts,"modulo",realtype,1,&lon_modulo,heaplist) ); rotgridid++; } /* sanity check - the variable ID for the next variable to be added should * now match the number of coordinate variables */ if ( varid != ncvars ) { pp_error_mesg("cdunifpp_process","wrong number of coord vars?"); ERR; } /* add all the attributes for coord variables * (didn't do inside the loop because more complicated * for hybrid z coords / t mean) */ for (cvarid=0; cvarid<ncvars; cvarid++) { var=&cuvars[cvarid]; ppvar=(PPvar*) var->internp; CKI( pp_copy_and_free_atts(file,var,ppvar->atts,heaplist) ); } /*======================================================== * Okay we've done all the variables related to dimensions * Add the field variables. *======================================================== */ pp_list_startwalk(fieldvars,&handle); while ((fvar=pp_list_walk(&handle,0))!=NULL) { var=&cuvars[varid]; ppvar=(PPvar*) var->internp; atts = ppvar->atts; hdrp = &fvar->firstrec->hdr; CKI( pp_var_lookup(hdrp, &fvar->stashmeta) ); CKI( pp_get_var_name(varid, fvar->stashmeta.shortname, cuvars) ); var->ndims=4; /* rpw axeslist len */ /* * Axes in fvar->axes list are fastest varying first (lon,lat,lev,time) * But require them in netCDF-like order (time,lev,lat,lon), so * reverse the order while copying into var->dims. */ idim=var->ndims; pp_list_startwalk(fvar->axes,&thandle); while ((axis=pp_list_walk(&thandle,0)) != NULL) { var->dims[--idim] = axis->dimid; } var->datatype = pp_get_var_type(hdrp); ppvar->firstrecno = fvar->firstrecno; ppvar->lastrecno = fvar->lastrecno; CKI( pp_var_get_extra_atts(var, fvar, cudims, atts, heaplist) ); CKI( pp_copy_and_free_atts(file, var, atts, heaplist) ); varid++; } /* sanity check - the variable ID for the next variable to be added (if there was one, * which there isn't), should now match the total number of variables */ if ( varid != nvars ) { pp_error_mesg("cdunifpp_process","wrong number of vars?"); ERR; } /* set numbers in file structure */ file->ndims=ndims; file->nvars=nvars; file->recdim=-1; /* set global attributes */ CKP( gatts = pp_get_global_attributes(file->controlpath, ppfile, heaplist) ); CKI( pp_copy_and_free_atts(file,NULL,gatts,heaplist) ); /*======================================================== * All done and ready for dimget / varget. *======================================================== */ /* free what memory we can */ CKI( pp_free_tmp_vars(xaxes, yaxes, zaxes, taxes, fieldvars, heaplist) ); return 0; ERRBLKI("pp_process"); }