/* * (C) Copyright 2005- ECMWF. * * This software is licensed under the terms of the Apache Licence Version 2.0 * which can be obtained at http://www.apache.org/licenses/LICENSE-2.0. * * In applying this licence, ECMWF does not waive the privileges and immunities granted to it by * virtue of its status as an intergovernmental organisation nor does it submit to any jurisdiction. */ /* * Check GRIB2 parameter concept file e.g. shortName.def, paramId.def */ #include "grib_api_internal.h" typedef struct grib_expression_long { grib_expression base; long value; } grib_expression_long; typedef struct grib_expression_functor { grib_expression base; char* name; grib_arguments* args; } grib_expression_functor; typedef struct grib_expression_string { grib_expression base; char* value; } grib_expression_string; static int type_of_surface_missing(const char* name, const char* value) { /* Surface Type is Code Table 4.5 in which 255 is the same as missing */ if (strcmp(value, "255") == 0) { return 1; } /* Beware of problems where we put 'missing()' for a code table key! */ if (strncmp(value, "missing", 7) == 0) { fprintf(stderr, "Invalid value for %s Code Table entry: '%s'\n", name, value); Assert(0); } return 0; } static int scale_factor_missing(const char* value) { /* Scale factor is one octet so 255 is the same as missing */ if (strcmp(value, "missing") == 0 || strcmp(value, "255") == 0) { return 1; } return 0; } #define STAT_PROC_MAX_VAL 103 // increase this with new Code Table 4.10 entries /* * key = paramId or shortName * filename = paramId.def or shortName.def */ static int grib_check_param_concepts(const char* key, const char* filename) { int isLocal = 0; int count = 0; grib_concept_value* concept_value = grib_parse_concept_file(NULL, filename); if (!concept_value) return GRIB_IO_PROBLEM; if (strstr(filename, "/localConcepts/")) { isLocal = 1; } while (concept_value) { count++; if (strlen(concept_value->name) == 0) { fprintf(stderr, "%s %s: Empty concept value (count=%d)\n", key, concept_value->name, count); Assert(0); } grib_concept_condition* concept_condition = concept_value->conditions; /* Convention: * -1 key not present * 0 key present and not missing * 1 key present and missing */ int scaleFactor1Missing = -1, scaleFactor2Missing = -1; int scaledValue1Missing = -1, scaledValue2Missing = -1; int type1Missing = -1, type2Missing = -1; int err = 0; /* concept_value->name is the value of the key (e.g. 151163 or sst) */ if (strcmp(key, "cfVarName")==0) { Assert( strlen(concept_value->name) > 0 ); if ( isdigit(concept_value->name[0]) || strcmp(concept_value->name, "~")==0 ) { fprintf(stderr, "%s %s: Invalid cfVarName in file %s\n", key, concept_value->name, filename); return GRIB_INVALID_KEY_VALUE; } } while (concept_condition) { char condition_value[512] = {0,}; grib_expression* expression = concept_condition->expression; const char* condition_name = concept_condition->name; /* printf("%s\n", concept_value->name); */ /* condition_name is discipline, parameterCategory etc. */ if (strcmp(expression->cclass->name, "long") == 0) { grib_expression_long* el = (grib_expression_long*)expression; snprintf(condition_value, sizeof(condition_value), "%ld", el->value); } else if (strcmp(expression->cclass->name, "functor") == 0) { grib_expression_functor* ef = (grib_expression_functor*)expression; snprintf(condition_value, sizeof(condition_value), "%s", ef->name); } else if (strcmp(expression->cclass->name, "string") == 0) { grib_expression_string* es = (grib_expression_string*)expression; snprintf(condition_value, sizeof(condition_value), "%s", es->value); } else { fprintf(stderr, "%s %s: Unknown class name: '%s'\n", key, concept_value->name, expression->cclass->name); Assert(0); } if (!isLocal && strcmp(condition_name, "localTablesVersion") == 0) { fprintf(stderr, "%s %s: Cannot have localTablesVersion key in WMO file %s!\n", key, concept_value->name, filename); return GRIB_INVALID_KEY_VALUE; } if (strcmp(condition_name, "typeOfStatisticalProcessing") == 0) { long lValue = atol(condition_value); if (lValue > STAT_PROC_MAX_VAL || lValue < 0) { fprintf(stderr, "Bad value for %s in %s=%s in file %s\n", condition_name, key, concept_value->name, filename); return GRIB_INVALID_KEY_VALUE; } } if (strcmp(condition_name, "typeOfFirstFixedSurface") == 0) { type1Missing = type_of_surface_missing(condition_name, condition_value); } if (strcmp(condition_name, "typeOfSecondFixedSurface") == 0) { type2Missing = type_of_surface_missing(condition_name, condition_value); } if (strcmp(condition_name, "scaleFactorOfFirstFixedSurface") == 0) { scaleFactor1Missing = scale_factor_missing(condition_value); } if (strcmp(condition_name, "scaleFactorOfSecondFixedSurface") == 0) { scaleFactor2Missing = scale_factor_missing(condition_value); } if (strcmp(condition_name, "scaledValueOfFirstFixedSurface") == 0) { scaledValue1Missing = (strncmp(condition_value, "missing", 7) == 0); } if (strcmp(condition_name, "scaledValueOfSecondFixedSurface") == 0) { scaledValue2Missing = (strncmp(condition_value, "missing", 7) == 0); } concept_condition = concept_condition->next; } /* Now check the scale factor/value pairs */ if (type1Missing == 1 && scaleFactor1Missing == 0 && scaledValue1Missing == 0) err = 1; if (type2Missing == 1 && scaleFactor2Missing == 0 && scaledValue2Missing == 0) err = 1; if (scaleFactor1Missing == 1 && scaledValue1Missing == 0) err = 1; if (scaleFactor1Missing == 0 && scaledValue1Missing == 1) err = 1; if (scaleFactor2Missing == 1 && scaledValue2Missing == 0) err = 1; if (scaleFactor2Missing == 0 && scaledValue2Missing == 1) err = 1; if (err) { fprintf(stderr, "Error: Mismatched type of surface, scale factor, scaled value keys for %s='%s'.\n" " If the type of surface is missing so should its scaled keys\n" " If the scale factor is missing so should the scaled value and vice versa\n", key, concept_value->name); return GRIB_INVALID_KEY_VALUE; } concept_value = concept_value->next; } return GRIB_SUCCESS; } int main(int argc, char** argv) { int err = 0; const char* concepts_key = argv[1]; const char* concepts_filename = argv[2]; Assert(argc == 3); err = grib_check_param_concepts(concepts_key, concepts_filename); if (err) return err; printf("ALL OK\n"); return 0; }