/** * Copyright 2005-2007 ECMWF * * Licensed under the GNU Lesser General Public License which * incorporates the terms and conditions of version 3 of the GNU * General Public License. * See LICENSE and gpl-3.0.txt for details. */ /************************************** * Enrico Fucile **************************************/ #include "grib_api_internal.h" /* This is used by make_class.pl START_CLASS_DEF CLASS = accessor SUPER = grib_accessor_class_abstract_vector IMPLEMENTS = unpack_double; destroy IMPLEMENTS = value_count;compare IMPLEMENTS = init MEMBERS = const char* values MEMBERS = const char* J MEMBERS = const char* K MEMBERS = const char* M MEMBERS = const char* JS END_CLASS_DEF */ /* START_CLASS_IMP */ /* Don't edit anything between START_CLASS_IMP and END_CLASS_IMP Instead edit values between START_CLASS_DEF and END_CLASS_DEF or edit "accessor.class" and rerun ./make_class.pl */ static int unpack_double(grib_accessor*, double* val,size_t *len); static long value_count(grib_accessor*); static void destroy(grib_context*,grib_accessor*); static void init(grib_accessor*,const long, grib_arguments* ); static void init_class(grib_accessor_class*); static int compare(grib_accessor*, grib_accessor*); typedef struct grib_accessor_statistics_spectral { grib_accessor att; /* Members defined in gen */ /* Members defined in double */ /* Members defined in abstract_vector */ double* v; int number_of_elements; /* Members defined in statistics_spectral */ const char* values; const char* J; const char* K; const char* M; const char* JS; } grib_accessor_statistics_spectral; extern grib_accessor_class* grib_accessor_class_abstract_vector; static grib_accessor_class _grib_accessor_class_statistics_spectral = { &grib_accessor_class_abstract_vector, /* super */ "statistics_spectral", /* name */ sizeof(grib_accessor_statistics_spectral), /* size */ 0, /* inited */ &init_class, /* init_class */ &init, /* init */ 0, /* post_init */ &destroy, /* free mem */ 0, /* describes himself */ 0, /* get length of section */ &value_count, /* get number of values */ 0, /* get number of bytes */ 0, /* get offset to bytes */ 0, /* get native type */ 0, /* get sub_section */ 0, /* grib_pack procedures long */ 0, /* grib_pack procedures long */ 0, /* grib_pack procedures long */ 0, /* grib_unpack procedures long */ 0, /* grib_pack procedures double */ &unpack_double, /* grib_unpack procedures double */ 0, /* grib_pack procedures string */ 0, /* grib_unpack procedures string */ 0, /* grib_pack procedures bytes */ 0, /* grib_unpack procedures bytes */ 0, /* pack_expression */ 0, /* notify_change */ 0, /* update_size */ 0, /* preferred_size */ 0, /* resize */ 0, /* nearest_smaller_value */ 0, /* next accessor */ &compare, /* compare vs. another accessor */ 0, /* unpack only ith value */ 0, /* unpack a subarray */ 0, /* clear */ }; grib_accessor_class* grib_accessor_class_statistics_spectral = &_grib_accessor_class_statistics_spectral; static void init_class(grib_accessor_class* c) { c->dump = (*(c->super))->dump; c->next_offset = (*(c->super))->next_offset; c->byte_count = (*(c->super))->byte_count; c->byte_offset = (*(c->super))->byte_offset; c->get_native_type = (*(c->super))->get_native_type; c->sub_section = (*(c->super))->sub_section; c->pack_missing = (*(c->super))->pack_missing; c->is_missing = (*(c->super))->is_missing; c->pack_long = (*(c->super))->pack_long; c->unpack_long = (*(c->super))->unpack_long; c->pack_double = (*(c->super))->pack_double; c->pack_string = (*(c->super))->pack_string; c->unpack_string = (*(c->super))->unpack_string; c->pack_bytes = (*(c->super))->pack_bytes; c->unpack_bytes = (*(c->super))->unpack_bytes; c->pack_expression = (*(c->super))->pack_expression; c->notify_change = (*(c->super))->notify_change; c->update_size = (*(c->super))->update_size; c->preferred_size = (*(c->super))->preferred_size; c->resize = (*(c->super))->resize; c->nearest_smaller_value = (*(c->super))->nearest_smaller_value; c->next = (*(c->super))->next; c->unpack_double_element = (*(c->super))->unpack_double_element; c->unpack_double_subarray = (*(c->super))->unpack_double_subarray; c->clear = (*(c->super))->clear; } /* END_CLASS_IMP */ static void init(grib_accessor* a,const long l, grib_arguments* c) { grib_accessor_statistics_spectral* self = (grib_accessor_statistics_spectral*)a; int n = 0; self->values = grib_arguments_get_name(a->parent->h,c,n++); self->J = grib_arguments_get_name(a->parent->h,c,n++); self->K = grib_arguments_get_name(a->parent->h,c,n++); self->M = grib_arguments_get_name(a->parent->h,c,n++); self->JS = grib_arguments_get_name(a->parent->h,c,n++); a->flags |= GRIB_ACCESSOR_FLAG_READ_ONLY; a->flags |= GRIB_ACCESSOR_FLAG_FUNCTION; self->number_of_elements=4; self->v=(double*)grib_context_malloc(a->parent->h->context, sizeof(double)*self->number_of_elements); a->length=0; a->dirty=1; } static int unpack_double (grib_accessor* a, double* val, size_t *len) { grib_accessor_statistics_spectral* self = (grib_accessor_statistics_spectral*)a; int ret = 0,i=0; double* values; size_t size=0; long J,K,M,N; double avg,enorm,sd; grib_context* c=a->parent->h->context; grib_handle* h=a->parent->h; if (!a->dirty) return GRIB_SUCCESS; if ( (ret=grib_get_size(h,self->values,&size)) != GRIB_SUCCESS) return ret; if((ret=grib_get_long(a->parent->h,self->J,&J)) != GRIB_SUCCESS) return ret; if((ret=grib_get_long(a->parent->h,self->K,&K)) != GRIB_SUCCESS) return ret; if((ret=grib_get_long(a->parent->h,self->M,&M)) != GRIB_SUCCESS) return ret; if (J != M || M != K) return GRIB_NOT_IMPLEMENTED; N=(M+1)*(M+2)/2; if (2*N != size) { grib_context_log(a->parent->h->context,GRIB_LOG_ERROR, "wrong number of components for spherical harmonics %ld != %ld",2*N,size); return GRIB_WRONG_ARRAY_SIZE; } values=(double*)grib_context_malloc(c,size*sizeof(double)); if (!values) return GRIB_OUT_OF_MEMORY; if((ret = grib_get_double_array_internal(h,self->values,values,&size)) != GRIB_SUCCESS) { grib_context_free(c,values); return ret; } avg=values[0]; enorm=0; sd=0; for (i=2; i < 2*J ; i+=2) sd += values[i]*values[i]; for (i= 2*J; i < size; i+=2) sd += values[i]*values[i] - values[i+1]*values[i+1]; enorm=sd+avg*avg; sd=sqrt(sd); enorm=sqrt(enorm); a->dirty=0; grib_context_free(c,values); self->v[0]=avg; self->v[1]=enorm; self->v[2]=sd; self->v[3]= sd == 0 ? 1 : 0; for (i=0;inumber_of_elements;i++) val[i]=self->v[i]; return ret; } static long value_count(grib_accessor* a) { grib_accessor_statistics_spectral* self = (grib_accessor_statistics_spectral*)a; return self->number_of_elements; } static void destroy(grib_context* c,grib_accessor* a) { grib_accessor_statistics_spectral* self = (grib_accessor_statistics_spectral*)a; grib_context_free(c,self->v); } static int compare(grib_accessor* a, grib_accessor* b) { int retval=0; double *aval=0; double *bval=0; size_t alen = (size_t)grib_value_count(a); size_t blen = (size_t)grib_value_count(b); if (alen != blen) return GRIB_COUNT_MISMATCH; aval=grib_context_malloc(a->parent->h->context,alen*sizeof(double)); bval=grib_context_malloc(b->parent->h->context,blen*sizeof(double)); b->dirty=1; a->dirty=1; grib_unpack_double(a,aval,&alen); grib_unpack_double(b,bval,&blen); retval = GRIB_SUCCESS; while (alen != 0) { if (*bval != *aval) retval = GRIB_DOUBLE_VALUE_MISMATCH; alen--; } grib_context_free(a->parent->h->context,aval); grib_context_free(b->parent->h->context,bval); return GRIB_SUCCESS; }