/* * (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. */ #include "grib_tools.h" grib_option grib_options[] = { /* {id, args, help}, on, command_line, value*/ /*{"r",0,"Compare files in which the messages are not in the same order. This option is time expensive.\n",0,1,0},*/ { "b:", 0, 0, 0, 1, 0 }, { "d", 0, "Write different messages on files.\n", 0, 1, 0 }, { "2", 0, "Enable two-way comparison.\n", 0, 1, 0 }, { "T:", 0, 0, 1, 0, "B" }, { "c:", 0, 0, 0, 1, 0 }, { "S:", "start", "First field to be processed.\n", 0, 1, 0 }, { "E:", "end", "Last field to be processed.\n", 0, 1, 0 }, { "a", 0, "-c option modifier. The keys listed with the option -c will be added to the list of keys compared without -c.\n", 0, 1, 0 }, { "H", 0, "Compare only message headers. Bit-by-bit compare on. Incompatible with -c option.\n", 0, 1, 0 }, { "R:", 0, 0, 0, 1, 0 }, { "A:", 0, 0, 0, 1, 0 }, { "t:", "factor", "Compare data values using factor multiplied by the tolerance specified in options -R -A.\n", 0, 1, 0 }, { "w:", 0, 0, 0, 1, 0 }, { "f", 0, "Forcefully compare, do not stop after first difference.\n", 0, 1, 0 }, { "F", 0, 0, 1, 0, 0 }, { "q", 0, 0, 1, 0, 0 }, { "M", 0, 0, 1, 0, 0 }, { "I", 0, 0, 1, 0, 0 }, { "V", 0, 0, 0, 1, 0 }, { "7", 0, 0, 0, 1, 0 }, { "v", 0, 0, 0, 1, 0 }, { "h", 0, 0, 0, 1, 0 }, }; int grib_options_count = sizeof(grib_options) / sizeof(grib_option); const char* tool_description = "Compare BUFR messages contained in two files." "\n\tIf some differences are found it fails returning an error code." "\n\tFloating-point values are compared exactly by default, different tolerances can be defined (see -A -R)." "\n\tDefault behaviour: absolute error=0, bit-by-bit compare, same order in files."; const char* tool_name = "bufr_compare"; const char* tool_online_doc = "https://confluence.ecmwf.int/display/ECC/bufr_compare"; const char* tool_usage = "[options] bufr_file1 bufr_file2"; typedef double (*compare_double_proc)(const double*, const double*, const double*); typedef struct grib_error grib_error; struct grib_error { char* key; int count; grib_error* next; }; static grib_error* error_summary; static compare_double_proc compare_double; static double global_tolerance = 0; static grib_string_list* blocklist = 0; static grib_string_list* keys_list = NULL; /* Used to determine rank of key */ static int isLeafKey = 0; /* 0 if key is top-level, 1 if key has no children attributes */ static int compareAbsolute = 1; static int compare_handles(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options); static int compare_attribute(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options, grib_accessor* a, const char* prefix, int* err); static int error = 0; static int count = 0; static int force = 0; /* ECC-651: Boolean 'two_way' set to 1 when '-2' option used */ static int two_way = 0; /* Boolean 'handles_swapped' relevant in 'two_way' mode: * 0 means: h1 is first file, h2 is second file * 1 means: h1 is second file, h2 is first file */ static int handles_swapped = 0; static double maxAbsoluteError = 1e-19; static int onlyListed = 1; static int headerMode = 0; static int morein1 = 0; static int morein2 = 0; static int listFromCommandLine = 0; static int verbose = 0; static double tolerance_factor = 1; static int write_error = 0; static int write_count = 0; static grib_handle* global_handle = NULL; static int counter = 0; static int start = -1; static int end = -1; /* Create the list of keys (global variable keys_list) */ static void new_keys_list() { grib_context* c = grib_context_get_default(); keys_list = (grib_string_list*)grib_context_malloc_clear(c, sizeof(grib_string_list)); if (!keys_list) { fprintf(stderr, "%s: Failed to allocate memory for keys list", tool_name); exit(1); } } /* Free the keys list (global variable keys_list) */ static void release_keys_list() { grib_string_list* next = keys_list; grib_string_list* cur = NULL; grib_context* c = grib_context_get_default(); while (next) { cur = next; next = next->next; grib_context_free(c, cur->value); grib_context_free(c, cur); } } GRIB_INLINE static double compare_double_absolute(const double* a, const double* b, const double* err) { double ret = 0; double d = fabs(*a - *b); if (d > *err) { ret = d; } return ret; /* return fabs(*a-*b) > *err ? fabs(*a-*b) : 0; */ } static void write_message(grib_handle* h, const char* str) { const void* m; size_t s; char fname[1024] = {0,}; FILE* fh; grib_get_message(h, &m, &s); snprintf(fname, sizeof(fname), "%s_%d.bufr", str, write_count); fh = fopen(fname, "w"); if (!fh) { grib_context_log(h->context, (GRIB_LOG_ERROR) | (GRIB_LOG_PERROR), "Error opening %s", fname); exit(GRIB_IO_PROBLEM); } if (fwrite(m, 1, s, fh) != s) { grib_context_log(h->context, (GRIB_LOG_ERROR) | (GRIB_LOG_PERROR), "Error writing to %s", fname); exit(GRIB_IO_PROBLEM); } fclose(fh); } static void write_messages(grib_handle* handle1, grib_handle* handle2) { if (!write_error) return; write_count++; write_message(handle1, "error1"); write_message(handle2, "error2"); } static double compare_double_relative(const double* a, const double* b, const double* err) { double relativeError; if (fabs(*a) <= maxAbsoluteError || fabs(*b) <= maxAbsoluteError) relativeError = fabs(*a - *b); else if (fabs(*b) > fabs(*a)) relativeError = fabs((*a - *b) / *b); else relativeError = fabs((*a - *b) / *a); return relativeError > *err ? relativeError : 0; } static int blocklisted(const char* name) { grib_string_list* b = blocklist; if (!name) return 0; while (b) { ECCODES_ASSERT(b->value); if (!strcmp(name, b->value)) return 1; b = b->next; } return 0; } static double relative_error(double a, double b, double err) { double relativeError; if (fabs(a) <= maxAbsoluteError || fabs(b) <= maxAbsoluteError) relativeError = fabs(a - b); else if (fabs(b) > fabs(a)) relativeError = fabs((a - b) / b); else relativeError = fabs((a - b) / a); return relativeError; } int main(int argc, char* argv[]) { return grib_tool(argc, argv); } int grib_tool_before_getopt(grib_runtime_options* options) { return 0; } int grib_tool_init(grib_runtime_options* options) { int ret = 0; grib_context* context = grib_context_get_default(); options->strict = 1; if (grib_options_on("S:")) start = atoi(grib_options_get_option("S:")); if (grib_options_on("E:")) end = atoi(grib_options_get_option("E:")); if (grib_options_on("f")) force = 1; else force = 0; if (grib_options_on("2")) two_way = 1; else two_way = 0; if (grib_options_on("d")) write_error = 1; else write_error = 0; verbose = grib_options_on("v"); listFromCommandLine = 0; if (grib_options_on("c:") || grib_options_on("e")) listFromCommandLine = 1; if (grib_options_on("a")) onlyListed = 0; else onlyListed = 1; if (grib_options_on("H")) headerMode = 1; else headerMode = 0; if (grib_options_on("H") && grib_options_on("c:")) { fprintf(stderr, "%s: -H and -c options are incompatible. Choose one of the two please.\n",tool_name); exit(1); } if (grib_options_on("a") && !grib_options_on("c:")) { fprintf(stderr, "%s: -a option requires -c option. Please define a list of keys with the -c option.\n",tool_name); exit(1); } if (grib_options_on("b:")) { grib_string_list* next = 0; int ii = 0; blocklist = (grib_string_list*)grib_context_malloc_clear(context, sizeof(grib_string_list)); blocklist->value = grib_context_strdup(context, options->set_values[0].name); next = blocklist; for (ii = 1; ii < options->set_values_count; ii++) { next->next = (grib_string_list*)grib_context_malloc_clear(context, sizeof(grib_string_list)); next->next->value = grib_context_strdup(context, options->set_values[ii].name); next = next->next; } context->blocklist = blocklist; } /* Check 1st file is not a directory */ exit_if_input_is_directory(tool_name, options->infile_extra->name); options->random = 0; options->infile_extra->file = fopen(options->infile_extra->name, "r"); if (!options->infile_extra->file) { perror(options->infile_extra->name); exit(1); } global_tolerance = 0; compare_double = &compare_double_absolute; if (grib_options_on("R:")) { global_tolerance = 0; compare_double = &compare_double_relative; compareAbsolute = 0; } if (grib_options_on("A:")) { if (grib_options_on("R:")) { maxAbsoluteError = atof(grib_options_get_option("A:")); } else { compare_double = &compare_double_absolute; global_tolerance = atof(grib_options_get_option("A:")); } } if (grib_options_on("t:")) tolerance_factor = atof(grib_options_get_option("t:")); if (grib_options_on("R:")) { char* sarg = grib_options_get_option("R:"); options->tolerance_count = MAX_KEYS; ret = parse_keyval_string(tool_name, sarg, 1, GRIB_TYPE_DOUBLE, options->tolerance, &(options->tolerance_count)); if (ret == GRIB_INVALID_ARGUMENT) { usage(); exit(1); } } { /* Check for 2nd file being a directory. If so, we assume user is comparing to a file */ /* with the same name as first file in that directory */ grib_tools_file* infile = options->infile; /* the 2nd file in comparison */ if (infile) { if (path_is_directory(infile->name)) { /* Take the filename of the 1st file and append to dir */ char bufr[2048] = {0,}; /* options->infile_extra->name_ is the 1st file */ snprintf(bufr, sizeof(bufr), "%s%c%s", infile->name, get_dir_separator_char(), extract_filename(options->infile_extra->name)); infile->name = strdup(bufr); } } } /* Turn off GRIB multi-field support mode. Not relevant for BUFR */ grib_multi_support_off(grib_context_get_default()); return 0; } int grib_tool_new_filename_action(grib_runtime_options* options, const char* file) { return 0; } int grib_tool_new_file_action(grib_runtime_options* options, grib_tools_file* file) { exit_if_input_is_directory(tool_name, file->name); return 0; } static void printInfo(grib_handle* h) { printf("== %d == DIFFERENCE == ", count); } static void print_index_key_values(grib_index* index, int icounter, const char* error_message) { grib_index_key* keys = index->keys; printf("== %d == ", icounter); if (error_message) printf("%s == ", error_message); while (keys) { printf("%s=%s ", keys->name, keys->value); keys = keys->next; } printf("\n"); } static grib_handle* bufr_handle_new_from_file_x( grib_context* c, FILE* f, int mode, int headers_only, int* err) { return codes_handle_new_from_file(c, f, PRODUCT_BUFR, err); } int grib_tool_new_handle_action(grib_runtime_options* options, grib_handle* h) { int err = 0; count++; if (options->through_index) { grib_index* idx1 = options->index1; verbose = 0; counter++; if (start > 0 && counter < start) return 0; if (end > 0 && counter > end) { options->stop = 1; return 0; } grib_index_search_same(idx1, h); global_handle = codes_new_from_index(idx1, CODES_BUFR, &err); if (options->verbose) { off_t offset = 0; char* filename = grib_get_field_file(options->index2, &offset); printf("file1=\"%s\" ", filename); filename = grib_get_field_file(options->index1, &offset); printf("file2=\"%s\" \n", filename); print_index_key_values(options->index1, counter, NULL); } if (!global_handle) { if (!options->verbose) print_index_key_values(idx1, counter, "NOT FOUND "); } if (!global_handle || err != GRIB_SUCCESS) { morein1++; if (global_handle) grib_handle_delete(global_handle); return 0; } if (compare_handles(h, global_handle, options)) { error++; write_messages(h, global_handle); if (!force) exit(1); } grib_handle_delete(global_handle); return 0; } else { global_handle = bufr_handle_new_from_file_x(h->context, options->infile_extra->file, options->mode, 0, &err); } if (!global_handle || err != GRIB_SUCCESS) { morein2++; if (global_handle) grib_handle_delete(global_handle); return 0; } if (compare_handles(global_handle, h, options)) { error++; write_messages(global_handle, h); if (!two_way) { /* If two_way mode: Don't exit yet. Show further differences */ if (!force) exit(1); } } if (two_way) { /* ECC-651 and ECC-431 */ handles_swapped = 1; if (verbose) printf(" Swapping handles (two-way mode)\n"); if (compare_handles(h, global_handle, options)) { error++; write_messages(h, global_handle); if (!force) exit(1); } else { if (error) { /* Error from first pass */ if (!force) exit(1); } } } grib_handle_delete(global_handle); return 0; } int grib_tool_skip_handle(grib_runtime_options* options, grib_handle* h) { int err = 0; if (!options->through_index) { global_handle = codes_bufr_handle_new_from_file(h->context, options->infile_extra->file, &err); if (!global_handle || err != GRIB_SUCCESS) morein2++; grib_handle_delete(global_handle); } grib_handle_delete(h); count++; return 0; } int grib_tool_finalise_action(grib_runtime_options* options) { grib_error* e = error_summary; int err = 0; grib_context* c = grib_context_get_default(); /*if (grib_options_on("w:")) return 0;*/ while ((global_handle = codes_bufr_handle_new_from_file(c, options->infile_extra->file, &err))) { morein1++; grib_handle_delete(global_handle); } error += morein1 + morein2; if (error) { printf("\n## ERRORS SUMMARY #######\n"); } if (morein1 > 0) { printf("##\n## Different number of messages \n"); printf("## %d more messages in %s than in %s\n", morein1, options->infile_extra->name, options->infile->name); } if (morein2 > 0) { printf("##\n## Different number of messages \n"); printf("## %d more messages in %s than in %s\n", morein2, options->infile->name, options->infile_extra->name); } if (error) { printf("##\n## Summary of different key values \n"); while (e) { printf("## %s ( %d different )\n", e->key, e->count); e = e->next; } printf("##\n## %d different messages out of %d\n\n", error, count); } if (options->through_index) { grib_index_delete(options->index1); grib_index_delete(options->index2); } release_keys_list(); if (error != 0) exit(1); return 0; } static void save_error(grib_context* c, const char* key) { grib_error* e = 0; grib_error* next = 0; int saved = 0; if (!error_summary) { error_summary = (grib_error*)grib_context_malloc_clear(c, sizeof(grib_error)); error_summary->count = 1; error_summary->key = grib_context_strdup(c, key); return; } e = error_summary; next = e; while (next) { if (!strcmp(next->key, key)) { next->count++; saved = 1; break; } e = next; next = next->next; } if (!saved) { e->next = (grib_error*)grib_context_malloc_clear(c, sizeof(grib_error)); e->next->count = 1; e->next->key = grib_context_strdup(c, key); } } static char* double_as_string(grib_context* c, double v) { char* sval = (char*)grib_context_malloc_clear(c, sizeof(char) * 40); if (v == GRIB_MISSING_DOUBLE) snprintf(sval, 32, "MISSING"); else snprintf(sval, 32, "%.20e", v); return sval; } /* Return the part of the key name without the '#rank#' part */ static char* get_keyname_without_rank(const char* name) { const char* p = name; char* pEnd; char* ret = NULL; if (*p == '#') { strtol(++p, &pEnd, 10); if (*pEnd != '#') { DEBUG_ASSERT(!"Badly formed rank in key"); } else { /* Take everything after 2nd '#' */ grib_context* c = grib_context_get_default(); pEnd++; ret = grib_context_strdup(c, pEnd); } } return ret; } static int are_strings_both_missing(grib_handle* h1, grib_handle* h2, const char* key, const char* s1, const char* s2, size_t slen1, size_t slen2) { /* Note: one string could have all its bits=1 and the other empty */ int is_miss_1 = 0, is_miss_2 = 0; if (strlen(s1) == 0) { is_miss_1 = 1; } else { grib_accessor* a1 = grib_find_accessor(h1, key); is_miss_1 = grib_is_missing_string(a1, (unsigned char*)s1, slen1); } if (strlen(s2) == 0) { is_miss_2 = 1; } else { grib_accessor* a2 = grib_find_accessor(h2, key); is_miss_2 = grib_is_missing_string(a2, (unsigned char*)s2, slen2); } if (is_miss_1 && is_miss_2) { return 1; /* both classed as missing */ } return 0; } static int strings_are_different(grib_handle* h1, grib_handle* h2, const char* key, const char* s1, const char* s2, size_t slen1, size_t slen2) { if (strcmp(s1, s2) == 0) { return 0; } /* Strings are different. Now check if strings are 'missing'. * Note: one string could have all its bits=1 and the other empty */ if (are_strings_both_missing(h1, h2, key, s1, s2, slen1, slen2)) { return 0; } return 1; } static int compare_values(grib_runtime_options* options, grib_handle* handle1, grib_handle* handle2, const char* name, int type) { size_t len1 = 0; size_t len2 = 0; int err = 0, i = 0; int err1; int err2; int type1, type2; int countdiff; int isMissing1 = 0, isMissing2 = 0; char *sval1 = NULL, *sval2 = NULL; char **svals1 = NULL, **svals2 = NULL; double *dval1 = NULL, *dval2 = NULL; long *lval1 = NULL, *lval2 = NULL; double maxdiff = 0; double value_tolerance = 0; grib_context* c = handle1->context; const char* first_str = (handles_swapped == 0 ? "1st" : "2nd"); const char* second_str = (handles_swapped == 0 ? "2nd" : "1st"); type1 = type; type2 = type; if (verbose && !handles_swapped) printf(" comparing %s", name); if (type1 == GRIB_TYPE_UNDEFINED && (err = grib_get_native_type(handle1, name, &type1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get type of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err)); save_error(c, name); return err; } if (type2 == GRIB_TYPE_UNDEFINED && (err = grib_get_native_type(handle2, name, &type2)) != GRIB_SUCCESS) { if (err == GRIB_NOT_FOUND) { printInfo(handle1); printf("[%s] not found in %s field\n", name, second_str); save_error(c, name); return err; } printInfo(handle1); printf("Error: cannot get type of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err)); save_error(c, name); return err; } /* if(type1 != type2) { printInfo(handle1); printf("Warning, [%s] has different types: 1st field: [%s], 2nd field: [%s]\n", name,grib_get_type_name(type1),grib_get_type_name(type2)); return GRIB_TYPE_MISMATCH; } */ if (type1 == GRIB_TYPE_LABEL) return err; if (type1 == GRIB_TYPE_SECTION) return err; if ((err = grib_get_size(handle1, name, &len1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get size of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err)); save_error(c, name); return err; } if ((err = grib_get_size(handle2, name, &len2)) != GRIB_SUCCESS) { if (err == GRIB_NOT_FOUND) { printInfo(handle1); printf("[%s] not found in %s field\n", name, second_str); save_error(c, name); return err; } printInfo(handle1); printf("Error: cannot get size of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err)); save_error(c, name); return err; } if (handles_swapped) { /* Comparing a second time with handles swapped. Do not compare keys common to both handles */ return GRIB_SUCCESS; } /* if(len1 != len2 && type1 != GRIB_TYPE_STRING) { printInfo(handle1); printf("[%s] has different size: 1st field: %ld, 2nd field: %ld\n",name,(long)len1,(long)len2); save_error(c,name); return GRIB_COUNT_MISMATCH; } */ ECCODES_ASSERT(options->mode == MODE_BUFR); /* TODO: Ignore missing values for keys in BUFR. Not yet implemented */ //isMissing1 = ((grib_is_missing(handle1, name, &err1) == 1) && (err1 == 0)) ? 1 : 0; //isMissing2 = ((grib_is_missing(handle2, name, &err2) == 1) && (err2 == 0)) ? 1 : 0; if ((isMissing1 == 1) && (isMissing2 == 1)) { // if (verbose) printf(" is set to missing in both fields\n"); return GRIB_SUCCESS; } if (isMissing1 == 1) { // if (verbose) printf(" is set to missing in %s field\n", first_str); printInfo(handle1); printf("%s is set to missing in %s field is not missing in %s field\n", name, first_str, second_str); err1 = GRIB_VALUE_MISMATCH; save_error(c, name); return GRIB_VALUE_MISMATCH; } if (isMissing2 == 1) { // if (verbose) printf(" is set to missing in %s field\n", first_str); printInfo(handle1); printf("%s is set to missing in %s field is not missing in %s field\n", name, second_str, first_str); err1 = GRIB_VALUE_MISMATCH; save_error(c, name); return GRIB_VALUE_MISMATCH; } switch (type1) { case GRIB_TYPE_STRING: if (verbose) printf(" as string\n"); if (len1 == len2 && len1 == 1) { /* Single string */ size_t slen1 = 0; size_t slen2 = 0; /* See ECC-710: It is very slow getting the key length this way */ /*grib_get_string_length(handle1,name,&slen1);*/ /*grib_get_string_length(handle2,name,&slen2);*/ slen1 = slen2 = 4096; /* Significantly faster to use an upper bound */ sval1 = (char*)grib_context_malloc(handle1->context, slen1 * sizeof(char)); sval2 = (char*)grib_context_malloc(handle2->context, slen2 * sizeof(char)); if ((err1 = grib_get_string(handle1, name, sval1, &slen1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get string value of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err1)); save_error(c, name); } if ((err2 = grib_get_string(handle2, name, sval2, &slen2)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get string value of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err2)); save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS) { if (strings_are_different(handle1, handle2, name, sval1, sval2, slen1, slen2)) { printInfo(handle1); printf("string [%s]: [%s] != [%s]\n", name, sval1, sval2); err1 = GRIB_VALUE_MISMATCH; save_error(c, name); } } grib_context_free(handle1->context, sval1); grib_context_free(handle2->context, sval2); } else { /* Array of strings */ size_t ii = 0; svals1 = (char**)grib_context_malloc_clear(handle1->context, len1 * sizeof(char*)); svals2 = (char**)grib_context_malloc_clear(handle2->context, len2 * sizeof(char*)); if ((err1 = grib_get_string_array(handle1, name, svals1, &len1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get string value of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err1)); save_error(c, name); } if ((err2 = grib_get_string_array(handle2, name, svals2, &len2)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get string value of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err2)); save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 != len2) { printInfo(handle1); printf("Different size for \"%s\" [%zu] [%zu]\n", name, len1, len2); err1 = GRIB_INTERNAL_ERROR; save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 == len2) { countdiff = 0; for (ii = 0; ii < len1; ii++) { if (strings_are_different(handle1, handle2, name, svals1[ii], svals2[ii], len1, len2)) { countdiff++; } } if (countdiff) { printInfo(handle1); save_error(c, name); err1 = GRIB_VALUE_MISMATCH; if (len1 == 1) printf("string [%s]: [%s] != [%s]\n", name, *svals1, *svals2); else printf("string [%s] %d out of %zu different\n", name, countdiff, len1); } } for (ii = 0; ii < len1; ++ii) grib_context_free(c, svals1[ii]); for (ii = 0; ii < len2; ++ii) grib_context_free(c, svals2[ii]); grib_context_free(handle1->context, svals1); grib_context_free(handle1->context, svals2); } if (err1) return err1; if (err2) return err2; break; case GRIB_TYPE_LONG: if (verbose) printf(" as long\n"); lval1 = (long*)grib_context_malloc(handle1->context, len1 * sizeof(long)); lval2 = (long*)grib_context_malloc(handle2->context, len2 * sizeof(long)); if ((err1 = grib_get_long_array(handle1, name, lval1, &len1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get long value of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err1)); save_error(c, name); } if ((err2 = grib_get_long_array(handle2, name, lval2, &len2)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get long value of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err2)); save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 != len2) { printInfo(handle1); printf("Different size for \"%s\" [%zu] [%zu]\n", name, len1, len2); err1 = GRIB_INTERNAL_ERROR; save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 == len2) { size_t ii; countdiff = 0; for (ii = 0; ii < len1; ii++) if (lval1[ii] != lval2[ii]) countdiff++; if (countdiff) { printInfo(handle1); save_error(c, name); err1 = GRIB_VALUE_MISMATCH; if (len1 == 1) printf("long [%s]: [%ld] != [%ld]\n", name, *lval1, *lval2); else printf("long [%s] %d out of %zu different\n", name, countdiff, len1); } } grib_context_free(handle1->context, lval1); grib_context_free(handle2->context, lval2); if (err1) return err1; if (err2) return err2; break; case GRIB_TYPE_DOUBLE: if (verbose) printf(" as double\n"); dval1 = (double*)grib_context_malloc(handle1->context, len1 * sizeof(double)); dval2 = (double*)grib_context_malloc(handle2->context, len2 * sizeof(double)); value_tolerance = global_tolerance; if (!compareAbsolute) { int all_specified = 0; /* =1 if relative comparison with "all" specified */ for (i = 0; i < options->tolerance_count; i++) { if (!strcmp((options->tolerance[i]).name, "all")) { all_specified = 1; value_tolerance = (options->tolerance[i]).double_value; break; } } if (!all_specified) { char* basename = NULL; for (i = 0; i < options->tolerance_count; i++) { if (strcmp((options->tolerance[i]).name, name) == 0) { value_tolerance = (options->tolerance[i]).double_value; break; } else { /* Check if the key without its rank has a relative tolerance */ basename = get_keyname_without_rank(name); if (basename && strcmp((options->tolerance[i]).name, basename) == 0) { value_tolerance = (options->tolerance[i]).double_value; break; } } } if (basename) grib_context_free(handle1->context, basename); } } if ((err1 = grib_get_double_array(handle1, name, dval1, &len1)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get double value of [%s] in %s field: %s\n", name, first_str, grib_get_error_message(err1)); save_error(c, name); } if ((err2 = grib_get_double_array(handle2, name, dval2, &len2)) != GRIB_SUCCESS) { printInfo(handle1); printf("Error: cannot get double value of [%s] in %s field: %s\n", name, second_str, grib_get_error_message(err2)); save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 != len2) { printInfo(handle1); printf("Different size for \"%s\" [%zu] [%zu]\n", name, len1, len2); save_error(c, name); } if (err1 == GRIB_SUCCESS && err2 == GRIB_SUCCESS && len1 == len2) { int imaxdiff = 0; double diff; double *pv1, *pv2; maxdiff = 0; countdiff = 0; pv1 = dval1; pv2 = dval2; value_tolerance *= tolerance_factor; if (verbose) printf(" (%d values) tolerance=%g\n", (int)len1, value_tolerance); for (i = 0; i < len1; i++) { if ((diff = compare_double(pv1++, pv2++, &value_tolerance)) != 0) { countdiff++; if (maxdiff < diff) { maxdiff = diff; imaxdiff = i; } err1 = GRIB_VALUE_MISMATCH; } } if (countdiff) { printInfo(handle1); save_error(c, name); if (len1 > 1) { printf("double [%s]: %d out of %zu different\n", name, countdiff, len1); if (dval1[imaxdiff] != GRIB_MISSING_DOUBLE && dval2[imaxdiff] != GRIB_MISSING_DOUBLE) { if (compareAbsolute) printf(" max"); printf(" absolute diff. = %.16e,", fabs(dval1[imaxdiff] - dval2[imaxdiff])); if (!compareAbsolute) printf(" max"); printf(" relative diff. = %g", relative_error(dval1[imaxdiff], dval2[imaxdiff], value_tolerance)); printf("\n\tmax diff. element %d: %.20e %.20e", imaxdiff, dval1[imaxdiff], dval2[imaxdiff]); printf("\n\ttolerance=%.16e", value_tolerance); } else { /* One or both values are missing */ char* svalA = double_as_string(c, dval1[imaxdiff]); char* svalB = double_as_string(c, dval2[imaxdiff]); printf("\tdiff. element %d: %s %s", imaxdiff, svalA, svalB); grib_context_free(c, svalA); grib_context_free(c, svalB); } printf("\n"); } else { if (dval1[0] != GRIB_MISSING_DOUBLE && dval2[0] != GRIB_MISSING_DOUBLE) { printf("double [%s]: [%.20e] != [%.20e]\n", name, dval1[0], dval2[0]); printf("\tabsolute diff. = %g,", fabs(dval1[0] - dval2[0])); printf(" relative diff. = %g\n", relative_error(dval1[0], dval2[0], value_tolerance)); printf("\ttolerance=%g\n", value_tolerance); } else { /* One or both values are missing */ char* svalA = double_as_string(c, dval1[0]); char* svalB = double_as_string(c, dval2[0]); printf("double [%s]: [%s] != [%s]\n", name, svalA, svalB); grib_context_free(c, svalA); grib_context_free(c, svalB); } } } } grib_context_free(handle1->context, dval1); grib_context_free(handle2->context, dval2); if (err1) return err1; if (err2) return err2; break; case GRIB_TYPE_BYTES: return 0; // Not in BUFR break; case GRIB_TYPE_LABEL: break; default: if (verbose) printf("\n"); printInfo(handle1); save_error(c, name); printf("Cannot compare [%s], unsupported type %d\n", name, type1); return GRIB_UNABLE_TO_COMPARE_ACCESSORS; } return GRIB_SUCCESS; } static int compare_attributes(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options, grib_accessor* a, const char* prefix, int* err) { int i = 0, ret = 0; while (i < MAX_ACCESSOR_ATTRIBUTES && a->attributes_[i]) { /*long native_type = 0;*/ grib_accessor* aa = NULL; if ((a->attributes_[i]->flags_ & GRIB_ACCESSOR_FLAG_DUMP) == 0) { ++i; /* next attribute if accessor is not for dumping */ continue; } if ((a->attributes_[i]->flags_ & GRIB_ACCESSOR_FLAG_READ_ONLY) != 0) { ++i; /* next attribute if accessor is read-only */ continue; } aa = a->attributes_[i]; /*native_type = grib_accessor_get_native_type(aa); TODO: read only check? */ isLeafKey = aa->attributes_[0] == NULL ? 1 : 0; /* update global variable */ if (compare_attribute(handle1, handle2, options, aa, prefix, err)) { (*err)++; ret = 1; } ++i; /* next attribute */ } return ret; } static int compare_attribute(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options, grib_accessor* a, const char* prefix, int* err) { int ret = 0; grib_context* c = handle1->context; const size_t fullnameMaxLen = strlen(a->name_) + strlen(prefix) + 5; char* fullname = (char*)grib_context_malloc_clear(c, sizeof(char) * fullnameMaxLen); snprintf(fullname, fullnameMaxLen, "%s->%s", prefix, a->name_); if (compare_values(options, handle1, handle2, fullname, GRIB_TYPE_UNDEFINED)) { (*err)++; ret = 1; } /* Recurse if this key has children */ if (!isLeafKey) { if (compare_attributes(handle1, handle2, options, a, fullname, err)) { ret = 1; } } grib_context_free(c, fullname); return ret; } static int compare_all_dump_keys(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options, int* pErr) { int ret = 0; const char* name = NULL; grib_keys_iterator* iter = NULL; grib_context* context = handle1->context; if (!headerMode) { /* See ECC-333: By setting unpack we get ALL the bufr keys. */ /* In headerMode we want just the header ones */ grib_set_long(handle1, "skipExtraKeyAttributes", 1); /* See ECC-745 */ ret = grib_set_long(handle1, "unpack", 1); if (ret != GRIB_SUCCESS) { grib_context_log(context, GRIB_LOG_ERROR, "Failed to unpack 1st message: %s", grib_get_error_message(ret)); exit(1); } grib_set_long(handle2, "skipExtraKeyAttributes", 1); /* See ECC-745 */ ret = grib_set_long(handle2, "unpack", 1); if (ret != GRIB_SUCCESS) { grib_context_log(context, GRIB_LOG_ERROR, "Failed to unpack 2nd message: %s", grib_get_error_message(ret)); exit(1); } } iter = grib_keys_iterator_new(handle1, 0, NULL); if (!iter) { grib_context_log(context, GRIB_LOG_ERROR, "unable to create the BUFR keys iterator"); exit(1); } release_keys_list(); /* The keys list is used to determine the rank */ new_keys_list(); while (grib_keys_iterator_next(iter)) { int rank = 0; int dofree = 0; char* prefix = NULL; grib_accessor* xa = grib_keys_iterator_get_accessor(iter); isLeafKey = 0; /* clear global variable for each key */ name = grib_keys_iterator_get_name(iter); if (blocklisted(name)) continue; if (xa == NULL || (xa->flags_ & GRIB_ACCESSOR_FLAG_DUMP) == 0) continue; /* Get full name of key, e.g. '#2#windSpeed' or 'blockNumber' */ rank = compute_bufr_key_rank(handle1, keys_list, xa->name_); if (rank != 0) { const size_t prefixMaxLen = strlen(xa->name_) + 10; prefix = (char*)grib_context_malloc_clear(context, sizeof(char) * prefixMaxLen); dofree = 1; snprintf(prefix, prefixMaxLen, "#%d#%s", rank, xa->name_); } else { prefix = (char*)xa->name_; } if (blocklisted(prefix)) { if (dofree) grib_context_free(context, prefix); continue; } /* Compare the key itself */ if (compare_values(options, handle1, handle2, prefix, GRIB_TYPE_UNDEFINED)) { (*pErr)++; ret = 1; } /* Now compare the key attributes (if any) */ if (compare_attributes(handle1, handle2, options, xa, prefix, pErr)) { (*pErr)++; ret = 1; } if (dofree) grib_context_free(context, prefix); } grib_keys_iterator_delete(iter); return ret; } static int compare_handles(grib_handle* handle1, grib_handle* handle2, grib_runtime_options* options) { int err = 0; int i = 0; grib_keys_iterator* iter = NULL; const char* name = NULL; if (listFromCommandLine && onlyListed) { for (i = 0; i < options->compare_count; i++) { if (blocklisted(options->compare[i].name)) continue; if (options->compare[i].type == CODES_NAMESPACE) { iter = grib_keys_iterator_new(handle1, 0, options->compare[i].name); if (!iter) { grib_context_log(handle1->context, GRIB_LOG_ERROR, "unable to create the BUFR keys iterator"); exit(1); } while (grib_keys_iterator_next(iter)) { name = grib_keys_iterator_get_name(iter); if (blocklisted(name)) continue; if (compare_values(options, handle1, handle2, name, GRIB_TYPE_UNDEFINED)) { err++; } } grib_keys_iterator_delete(iter); } else { if (compare_values(options, handle1, handle2, options->compare[i].name, options->compare[i].type)) err++; } } } else { const void *msg1 = NULL, *msg2 = NULL; size_t size1 = 0, size2 = 0; GRIB_CHECK_NOLINE(grib_get_message(handle1, &msg1, &size1), 0); GRIB_CHECK_NOLINE(grib_get_message(handle2, &msg2, &size2), 0); if (size1 == size2 && 0 == memcmp(msg1, msg2, size1)) { return 0; } #if defined(BUFR_COMPARE_BYTES) else { int lcount=count,ii; if (options->current_infile) lcount=options->current_infile->filter_handle_count; if (size1 != size2) { printf("#%d different size: %d!=%d\n",lcount,(int)size1,(int)size2); } if (memcmp_ret) { unsigned char *m1=(unsigned char*)msg1; unsigned char *m2=(unsigned char*)msg2; printf("=== list of different bytes for message %d\n",lcount); for (ii=0;iicompare_count; i++) { if (blocklisted(name)) continue; if (options->compare[i].type == CODES_NAMESPACE) { iter = grib_keys_iterator_new(handle1, 0, options->compare[i].name); if (!iter) { grib_context_log(handle1->context, GRIB_LOG_ERROR, "unable to create the BUFR keys iterator for %s", options->compare[i].name); exit(1); } while (grib_keys_iterator_next(iter)) { name = grib_keys_iterator_get_name(iter); if (blocklisted(name)) continue; if (compare_values(options, handle1, handle2, name, GRIB_TYPE_UNDEFINED)) { err++; if (compare_all_dump_keys(handle1, handle2, options, &err)) { err++; } } } grib_keys_iterator_delete(iter); } else { if (compare_values(options, handle1, handle2, options->compare[i].name, options->compare[i].type)) { err++; if (compare_all_dump_keys(handle1, handle2, options, &err)) { err++; } } } } } else { if (compare_all_dump_keys(handle1, handle2, options, &err)) { err++; } } } return err; } int grib_no_handle_action(grib_runtime_options* options, int err) { fprintf(dump_file, "\t\t\"ERROR: unreadable message\"\n"); return 0; }