# Read the source files and output the statistics #defines plus the # initialize and refresh code. import re, string, sys, textwrap from dist import compare_srcfile # Read the source files. from stat_data import groups, dsrc_stats, connection_stats, join_stats def print_struct(title, name, base, stats): '''Print the structures for the stat.h file.''' f.write('/*\n') f.write(' * Statistics entries for ' + title + '.\n') f.write(' */\n') f.write('#define\tWT_' + name.upper() + '_STATS_BASE\t' + str(base) + '\n') f.write('struct __wt_' + name + '_stats {\n') for l in stats: f.write('\tint64_t ' + l.name + ';\n') f.write('};\n\n') # Update the #defines in the stat.h file. tmp_file = '__tmp' f = open(tmp_file, 'w') skip = 0 for line in open('../src/include/stat.h', 'r'): if not skip: f.write(line) if line.count('Statistics section: END'): f.write(line) skip = 0 elif line.count('Statistics section: BEGIN'): f.write('\n') skip = 1 print_struct( 'connections', 'connection', 1000, connection_stats) print_struct('data sources', 'dsrc', 2000, dsrc_stats) print_struct('join cursors', 'join', 3000, join_stats) f.close() compare_srcfile(tmp_file, '../src/include/stat.h') def print_defines_one(capname, base, stats): for v, l in enumerate(stats, base): f.write('/*! %s */\n' % '\n * '.join(textwrap.wrap(l.desc, 70))) f.write('#define\tWT_STAT_' + capname + '_' + l.name.upper() + "\t" * max(1, 6 - int((len('WT_STAT_' + capname + '_' + l.name)) / 8)) + str(v) + '\n') def print_defines(): '''Print the #defines for the wiredtiger.in file.''' f.write(''' /*! * @name Connection statistics * @anchor statistics_keys * @anchor statistics_conn * Statistics are accessed through cursors with \c "statistics:" URIs. * Individual statistics can be queried through the cursor using the following * keys. See @ref data_statistics for more information. * @{ */ ''') print_defines_one('CONN', 1000, connection_stats) f.write(''' /*! * @} * @name Statistics for data sources * @anchor statistics_dsrc * @{ */ ''') print_defines_one('DSRC', 2000, dsrc_stats) f.write(''' /*! * @} * @name Statistics for join cursors * @anchor statistics_join * @{ */ ''') print_defines_one('JOIN', 3000, join_stats) f.write('/*! @} */\n') # Update the #defines in the wiredtiger.in file. tmp_file = '__tmp' f = open(tmp_file, 'w') skip = 0 for line in open('../src/include/wiredtiger.in', 'r'): if not skip: f.write(line) if line.count('Statistics section: END'): f.write(line) skip = 0 elif line.count('Statistics section: BEGIN'): f.write(' */\n') skip = 1 print_defines() f.write('/*\n') f.close() compare_srcfile(tmp_file, '../src/include/wiredtiger.in') def print_func(name, handle, statlist): '''Print the structures/functions for the stat.c file.''' f.write('\n') f.write('static const char * const __stats_' + name + '_desc[] = {\n') for l in statlist: f.write('\t"' + l.desc + '",\n') f.write('};\n') f.write(''' int __wt_stat_''' + name + '''_desc(WT_CURSOR_STAT *cst, int slot, const char **p) { \tWT_UNUSED(cst); \t*p = __stats_''' + name + '''_desc[slot]; \treturn (0); } ''') f.write(''' void __wt_stat_''' + name + '_init_single(WT_' + name.upper() + '''_STATS *stats) { \tmemset(stats, 0, sizeof(*stats)); } ''') if handle != None: f.write(''' void __wt_stat_''' + name + '_init(' + handle + ''' *handle) { \tint i; \tfor (i = 0; i < WT_COUNTER_SLOTS; ++i) { \t\thandle->stats[i] = &handle->stat_array[i]; \t\t__wt_stat_''' + name + '''_init_single(handle->stats[i]); \t} } ''') f.write(''' void __wt_stat_''' + name + '_clear_single(WT_' + name.upper() + '''_STATS *stats) { ''') for l in statlist: # no_clear: don't clear the value. if 'no_clear' in l.flags: f.write('\t\t/* not clearing ' + l.name + ' */\n') else: f.write('\tstats->' + l.name + ' = 0;\n') f.write('}\n') f.write(''' void __wt_stat_''' + name + '_clear_all(WT_' + name.upper() + '''_STATS **stats) { \tu_int i; \tfor (i = 0; i < WT_COUNTER_SLOTS; ++i) \t\t__wt_stat_''' + name + '''_clear_single(stats[i]); } ''') # Single structure aggregation is currently only used by data sources. if name == 'dsrc': f.write(''' void __wt_stat_''' + name + '''_aggregate_single( WT_''' + name.upper() + '_STATS *from, WT_' + name.upper() + '''_STATS *to) { ''') for l in statlist: if 'max_aggregate' in l.flags: o = '\tif (from->' + l.name + ' > to->' + l.name + ')\n' +\ '\t\tto->' + l.name + ' = from->' + l.name + ';\n' else: o = '\tto->' + l.name + ' += from->' + l.name + ';\n' if len(o) > 72: # Account for the leading tab. o = o.replace(' += ', ' +=\n\t ') f.write(o) f.write('}\n') f.write(''' void __wt_stat_''' + name + '''_aggregate( WT_''' + name.upper() + '_STATS **from, WT_' + name.upper() + '''_STATS *to) { ''') # Connection level aggregation does not currently have any computation # of a maximum value; I'm leaving in support for it, but don't declare # a temporary variable until it's needed. for l in statlist: if 'max_aggregate' in l.flags: f.write('\tint64_t v;\n\n') break; for l in statlist: if 'max_aggregate' in l.flags: o = '\tif ((v = WT_STAT_READ(from, ' + l.name + ')) > ' +\ 'to->' + l.name + ')\n' if len(o) > 72: # Account for the leading tab. o = o.replace(' > ', ' >\n\t ') o +='\t\tto->' + l.name + ' = v;\n' else: o = '\tto->' + l.name + ' += WT_STAT_READ(from, ' + l.name + ');\n' if len(o) > 72: # Account for the leading tab. o = o.replace(' += ', ' +=\n\t ') f.write(o) f.write('}\n') # Write the stat initialization and refresh routines to the stat.c file. f = open(tmp_file, 'w') f.write('/* DO NOT EDIT: automatically built by dist/stat.py. */\n\n') f.write('#include "wt_internal.h"\n') print_func('dsrc', 'WT_DATA_HANDLE', dsrc_stats) print_func('connection', 'WT_CONNECTION_IMPL', connection_stats) print_func('join', None, join_stats) f.close() compare_srcfile(tmp_file, '../src/support/stat.c') # Update the statlog file with the entries we can scale per second. scale_info = 'no_scale_per_second_list = [\n' clear_info = 'no_clear_list = [\n' prefix_list = [] for l in sorted(connection_stats): prefix_list.append(l.prefix) if 'no_scale' in l.flags: scale_info += ' \'' + l.desc + '\',\n' if 'no_clear' in l.flags: clear_info += ' \'' + l.desc + '\',\n' for l in sorted(dsrc_stats): prefix_list.append(l.prefix) if 'no_scale' in l.flags: scale_info += ' \'' + l.desc + '\',\n' if 'no_clear' in l.flags: clear_info += ' \'' + l.desc + '\',\n' # No join statistics can be captured in wtstats scale_info += ']\n' clear_info += ']\n' prefix_info = 'prefix_list = [\n' # Remove the duplicates and print out the list for l in list(set(prefix_list)): prefix_info += ' \'' + l + '\',\n' prefix_info += ']\n' group_info = 'groups = ' + str(groups) tmp_file = '__tmp' f = open(tmp_file, 'w') f.write('# DO NOT EDIT: automatically built by dist/stat.py. */\n\n') f.write(scale_info) f.write(clear_info) f.write(prefix_info) f.write(group_info) f.close() compare_srcfile(tmp_file, '../tools/wtstats/stat_data.py')