Mercurial > ~darius > hgwebdir.cgi > wh1080
view local-compare.c @ 7:9a14029b3782
- Wait longer (100msec) for a read, and reduce the number of retries to match.
- Print out if we read OK after more than 1 attempt for diagnostic purposes.
author | Daniel O'Connor <darius@dons.net.au> |
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date | Thu, 11 Feb 2010 12:47:59 +1030 |
parents | 9da35e705144 |
children |
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/* * Create text files with a table comparing local temperature and barometric * pressurs to remote observations. * * Format: * * Date Difference # legible date * * Greg Lehey, 17 December 2009 * * FIXME. This needs rethinking. In particular, startup parameters are a mess. * Read on, brave programmer. * * $Id: local-compare.c,v 1.5 2010/02/07 03:38:26 grog Exp $ */ #include "wh1080.h" #include <syslog.h> #include <stdlib.h> #define STAMPSIZE 32 /* size of time stamp to print out */ char *stations [] = {"94852", /* Ballarat airport */ "94863", /* Sheoaks */ "94866"}; /* Melbourne airport */ const int station_count = sizeof (stations) / sizeof (char *); /* MySQL stuff */ MYSQL *mysql; MYSQL_RES *mysql_result_BoM; MYSQL_RES *mysql_result_local; MYSQL_ROW mysql_row_BoM; MYSQL_ROW mysql_row_local; char mysql_querytext [1024]; /* build up queries here */ /* Command line options */ int debug; /* -d */ int verbose; /* -v */ /* * Temperatures for calculation: two pairs of BoM time and temperature, * and one time and temperature between them for local. */ time_t interval_starttime; float interval_starttemp; time_t interval_endtime; float interval_endtemp; time_t local_time; float local_temp; float interval_temp; /* interpolated BoM temperature */ /* barometric pressure stuff */ float interval_startpressure; float interval_endpressure; float interval_pressure; /* interpolated BoM pressure */ float local_pressure; /* XXX get time zone in here */ const int my2k = 946731600; /* difference between UNIX and GNU epochs */ char *startdate_text; /* start date, YYYY-MM-DD */ char *enddate_text; /* and end date (default: 24 hours later) */ /* Same times in struct tm format */ struct tm startdate; struct tm enddate; time_t endtime_t; void usage (char *myname) { fprintf (stderr, "Usage: %s YYYY-MM-DD YYYY-MM-DD [-d] [-v] [station-id] [user] [passwd] [host] [db]\n", myname); exit (1); } /* * Make files with comparative data for temperatures. * * The remote observations are relatively infrequent, while the local * observations are frequent. We interpolate the "remote" values linearly to * estimate the temperature at the time of a local observation, but it doesn't * make sense to do that for all local observations. Instead, we just take the * one immediately after the remote observation, then skip to the next remote * observation. */ void mktempcompare (char *stationid) { char filename [PATH_MAX]; FILE *myfile; /* output file */ int finishing = 0; /* set to exit loop */ /* Create a file name for this comparison */ strcpy (filename, config.comparefile); strcat (filename, "-"); strcat (filename, stationid); myfile = fopen (filename, "w"); if (! myfile) { syslog (LOG_ERR | LOG_DAEMON, "Can't open %s: %s (%d)\n", filename, strerror (errno), errno ); exit (1); } chmod (filename, 0666); /* let anybody access it */ sprintf (mysql_querytext, "SELECT unix_timestamp(timestamp(date, time)), outside_temp\n" "FROM remote_observations\n" "WHERE station_id = '%s'\n" " AND date >= '%s'\n" " AND date <= '%s'\n" "ORDER BY date, time;\n", stationid, startdate_text, enddate_text ); if (domyquery (mysql_querytext, &mysql_result_BoM)) exit (1); /* failed and reported */ if (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM)) /* got something */ { interval_starttime = atol (mysql_row_BoM [0]); interval_starttemp = atof (mysql_row_BoM [1]); /* Next row for first interval */ if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* got something ?*/ exit (1); /* no */ interval_endtime = atol (mysql_row_BoM [0]); interval_endtemp = atof (mysql_row_BoM [1]); /* * Now we have an initial interval. Get the first local record after start * of interval. */ sprintf (mysql_querytext, "SELECT unix_timestamp(timestamp(date, time)), outside_temp\n" "FROM %s\n" "WHERE station_id = '%s'\n" " AND date >= '%s'\n" " AND date <= '%s'\n" "ORDER BY date, time;\n", config.db_table, config.station_id, startdate_text, enddate_text ); if (domyquery (mysql_querytext, &mysql_result_local)) exit (1); /* failed and reported */ while (mysql_row_local = mysql_fetch_row (mysql_result_local)) /* got something */ { local_time = atol (mysql_row_local [0]); local_temp = atof (mysql_row_local [1]); if (local_time > interval_starttime) /* we're in business */ { while (local_time > interval_endtime) /* beyond current BoM readings */ { interval_starttime = interval_endtime; interval_starttemp = interval_endtemp; /* Next row for first interval */ if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* finished? */ { fclose (myfile); return; } interval_endtime = atol (mysql_row_BoM [0]); interval_endtemp = atof (mysql_row_BoM [1]); } /* * Now our local reading is between start and end times. Interpolate * to get BoM temperature at this time. */ interval_temp = interval_starttemp + (interval_endtemp - interval_starttemp) * (local_time - interval_starttime) / (interval_endtime - interval_starttime); fprintf (myfile, "%d %d %2.1f %2.1f %2.1f # %s", local_time, local_time - my2k, local_temp, interval_temp, interval_temp - local_temp, ctime (&local_time) ); if (finishing) { fclose (myfile); return; } /* Next remote row */ interval_starttime = interval_endtime; interval_starttemp = interval_endtemp; if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* finished? */ finishing = 1; else { interval_endtime = atol (mysql_row_BoM [0]); interval_endtemp = atof (mysql_row_BoM [1]); } } } } } /* * Make files with comparative data for barometric pressures. */ void mkpresscompare (char *stationid) { char filename [PATH_MAX]; FILE *myfile; /* output file */ int finishing = 0; /* set to exit loop */ /* Create a file name for this comparison */ strcpy (filename, config.comparefile); strcat (filename, "-pressure-"); strcat (filename, stationid); myfile = fopen (filename, "w"); if (! myfile) { syslog (LOG_ERR | LOG_DAEMON, "Can't open %s: %s (%d)\n", filename, strerror (errno), errno ); exit (1); } chmod (filename, 0666); /* let anybody access it */ sprintf (mysql_querytext, "SELECT unix_timestamp(timestamp(date, time)), pressure_msl\n" "FROM remote_observations\n" "WHERE station_id = '%s'\n" " AND date >= '%s'\n" " AND date <= '%s'\n" " AND pressure_msl IS NOT NULL\n" "ORDER BY date, time;\n", stationid, startdate_text, enddate_text ); if (domyquery (mysql_querytext, &mysql_result_BoM)) exit (1); /* failed and reported */ if (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM)) /* got something */ { interval_starttime = atol (mysql_row_BoM [0]); interval_startpressure = atof (mysql_row_BoM [1]); /* * Next row for first interval. * * The BoM doesn't issue this information very frequently, so we'll accept a * single reading if we have to. In this case, we just pretend that the * pressure is constant. */ if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* got something ?*/ { finishing = 1; /* no, just do one more result */ interval_endtime = interval_starttime + 100; interval_endpressure = interval_startpressure; } else { interval_endtime = atol (mysql_row_BoM [0]); interval_endpressure = atof (mysql_row_BoM [1]); } /* * Now we have an initial interval. Get the first local record after start * of interval. */ sprintf (mysql_querytext, "SELECT unix_timestamp(timestamp(date, time)), pressure_msl\n" "FROM %s\n" "WHERE station_id = '%s'\n" " AND date >= '%s'\n" " AND date <= '%s'\n" " AND pressure_msl IS NOT NULL\n" "ORDER BY date, time;\n", config.db_table, config.station_id, startdate_text, enddate_text ); if (domyquery (mysql_querytext, &mysql_result_local)) exit (1); /* failed and reported */ while (mysql_row_local = mysql_fetch_row (mysql_result_local)) /* got something */ { local_time = atol (mysql_row_local [0]); local_pressure = atof (mysql_row_local [1]); if (local_time > interval_starttime) /* we're in business */ { /* * Unlike with temperatures, we only look at the first pressure reading * newer than the BoM reading. We have no way of knowing if the BoM has * similar changes to what we have locally. */ while (local_time > interval_endtime) /* beyond current BoM readings */ { interval_starttime = interval_endtime; interval_startpressure = interval_endpressure; /* Next row for first interval */ if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* finished? */ { finishing = 1; interval_endtime += 1000; /* to avoid division by 0 */ } else { interval_endtime = atol (mysql_row_BoM [0]); interval_endpressure = atof (mysql_row_BoM [1]); } } /* * Now our local reading is between start and end times. Interpolate * to get BoM pressure at this time. */ interval_pressure = interval_startpressure + (interval_endpressure - interval_startpressure) * (local_time - interval_starttime) / (interval_endtime - interval_starttime); fprintf (myfile, "%d %d %2.1f %2.1f %2.1f # %s", local_time, local_time - my2k, local_pressure, interval_pressure, interval_pressure - local_pressure, ctime (&local_time) ); local_time = interval_endtime + 1; /* force the next record */ if (finishing) { fclose (myfile); return; } /* Next remote row */ interval_starttime = interval_endtime; interval_starttemp = interval_endtemp; if (! (mysql_row_BoM = mysql_fetch_row (mysql_result_BoM))) /* finished? */ finishing = 1; else { interval_endtime = atol (mysql_row_BoM [0]); interval_endtemp = atof (mysql_row_BoM [1]); } } } } fclose (myfile); } int main (int argc, char *argv []) { int station; /* * This is tacky. We want to use the standard parameter sequence in * read_config (), but that doesn't include dates. So we require the sequence * in usage (). And that means that we need to find a way to specify the end * day. FIXME. */ if (argc < 3) /* we need at least start date */ usage (argv [0]); startdate_text = argv [1]; /* start and */ enddate_text = argv [1]; /* end date */ read_config (argc - 2, &argv [2]); /* this implies that we know argv [0] won't be used */ mysql = mysql_init (mysql); if (! mysql) { syslog (LOG_ERR | LOG_DAEMON, "Can't initialize MySQL: insufficient memory\n"); exit (1); } if (! mysql_real_connect (mysql, /* DB state */ config.db_host, /* database host */ config.db_user, config.db_passwd, config.db, 0, NULL, 0 )) { syslog (LOG_ERR | LOG_DAEMON, "Can't connect to databaase: %s (%d)\n", mysql_error (mysql), mysql_errno (mysql) ); exit (1); } /* Generate the files */ for (station = 0; station < station_count; station++) { mktempcompare (stations [station]); mkpresscompare (stations [station]); } exit (0); }