From: oetiker Date: Thu, 12 May 2005 05:41:09 +0000 (+0000) Subject: add unused to prevent warnings about self X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=ca97763e8b3d5e43814600acded73b7d00c59e12;p=rrdtool-all.git add unused to prevent warnings about self git-svn-id: svn://svn.oetiker.ch/rrdtool/branches/1.2@544 a5681a0c-68f1-0310-ab6d-d61299d08faa --- diff --git a/program/bindings/python/rrd_format.h b/program/bindings/python/rrd_format.h deleted file mode 100644 index e11cdd08..00000000 --- a/program/bindings/python/rrd_format.h +++ /dev/null @@ -1,324 +0,0 @@ -/* - * This file is part of RRDtool. - * - * RRDtool is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published - * by the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * RRDtool is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with Foobar; if not, write to the Free Software - * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA - */ - -/***************************************************************************** - * RRDtool 1.0.37 Copyright Tobias Oetiker, 1997, 1998, 1999 - ***************************************************************************** - * rrd_format.h RRD Database Format header - *****************************************************************************/ - -#ifndef _RRD_FORMAT_H -#define _RRD_FORMAT_H - -#include "rrd.h" - -/***************************************************************************** - * put this in your /usr/lib/magic file (/etc/magic on HPUX) - * - * # rrd database format - * 0 string RRD\0 rrd file - * >5 string >\0 version '%s' - * - *****************************************************************************/ - -#define RRD_COOKIE "RRD" -#define RRD_VERSION "0001" -#define FLOAT_COOKIE 8.642135E130 - -#if defined(WIN32) -#define DNAN ((double)fmod(0.0,0.0)) -#define DINF ((double)log(0.0)) -#else - -#define DNAN ((double)(0.0/0.0)) /* we use a DNAN to - * represent the UNKNOWN - * */ -#define DINF ((double)(1.0/0.0)) /* we use a DINF to - * represent a value at the upper or - * lower border of the graph ... - * */ -#endif - -typedef union unival { - unsigned long u_cnt; - rrd_value_t u_val; -} unival; - - -/**************************************************************************** - * The RRD Database Structure - * --------------------------- - * - * In oder to properly describe the database structure lets define a few - * new words: - * - * ds - Data Source (ds) providing input to the database. A Data Source (ds) - * can be a traffic counter, a temperature, the number of users logged - * into a system. The rrd database format can handle the input of - * several Data Sources (ds) in a singe database. - * - * dst - Data Source Type (dst). The Data Source Type (dst) defines the rules - * applied to Build Primary Data Points from the input provided by the - * data sources (ds). - * - * pdp - Primary Data Point (pdp). After the database has accepted the - * input from the data sources (ds). It starts building Primary - * Data Points (pdp) from the data. Primary Data Points (pdp) - * are evenly spaced along the time axis (pdp_step). The values - * of the Primary Data Points are calculated from the values of - * the data source (ds) and the exact time these values were - * provided by the data source (ds). - * - * pdp_st - PDP Start (pdp_st). The moments (pdp_st) in time where - * these steps occur are defined by the moments where the - * number of seconds since 1970-jan-1 modulo pdp_step equals - * zero (pdp_st). - * - * cf - Consolidation Function (cf). An arbitrary Consolidation Function (cf) - * (averaging, min, max) is applied to the primary data points (pdp) to - * calculate the consolidated data point. - * - * cdp - Consolidated Data Point (cdp) is the long term storage format for data - * in the rrd database. Consolidated Data Points represent one or - * several primary data points collected along the time axis. The - * Consolidated Data Points (cdp) are stored in Round Robin Archives - * (rra). - * - * rra - Round Robin Archive (rra). This is the place where the - * consolidated data points (cdp) get stored. The data is - * organized in rows (row) and columns (col). The Round Robin - * Archive got its name from the method data is stored in - * there. An RRD database can contain several Round Robin - * Archives. Each Round Robin Archive can have a different row - * spacing along the time axis (pdp_cnt) and a different - * consolidation function (cf) used to build its consolidated - * data points (cdp). - * - * rra_st - RRA Start (rra_st). The moments (rra_st) in time where - * Consolidated Data Points (cdp) are added to an rra are - * defined by the moments where the number of seconds since - * 1970-jan-1 modulo pdp_cnt*pdp_step equals zero (rra_st). - * - * row - Row (row). A row represent all consolidated data points (cdp) - * in a round robin archive who are of the same age. - * - * col - Column (col). A column (col) represent all consolidated - * data points (cdp) in a round robin archive (rra) who - * originated from the same data source (ds). - * - */ - -/**************************************************************************** - * POS 1: stat_head_t static header of the database - ****************************************************************************/ - -typedef struct stat_head_t { - - /* Data Base Identification Section ***/ - char cookie[4]; /* RRD */ - char version[5]; /* version of the format */ - double float_cookie; /* is it the correct double - * representation ? */ - - /* Data Base Structure Definition *****/ - unsigned long ds_cnt; /* how many different ds provide - * input to the rrd */ - unsigned long rra_cnt; /* how many rras will be maintained - * in the rrd */ - unsigned long pdp_step; /* pdp interval in seconds */ - - unival par[10]; /* global parameters ... unused - at the moment */ -} stat_head_t; - - -/**************************************************************************** - * POS 2: ds_def_t (* ds_cnt) Data Source definitions - ****************************************************************************/ - -enum dst_en { DST_COUNTER=0, /* data source types available */ - DST_ABSOLUTE, - DST_GAUGE, - DST_DERIVE}; - -enum ds_param_en { DS_mrhb_cnt=0, /* minimum required heartbeat. A - * data source must provide input at - * least every ds_mrhb seconds, - * otherwise it is regarded dead and - * will be set to UNKNOWN */ - DS_min_val, /* the processed input of a ds must */ - DS_max_val }; /* be between max_val and min_val - * both can be set to UNKNOWN if you - * do not care. Data outside the limits - * set to UNKNOWN */ - -/* The magic number here is one less than DS_NAM_SIZE */ -#define DS_NAM_FMT "%19[a-zA-Z0-9_-]" -#define DS_NAM_SIZE 20 - -#define DST_FMT "%19[A-Z]" -#define DST_SIZE 20 - -typedef struct ds_def_t { - char ds_nam[DS_NAM_SIZE]; /* Name of the data source (null terminated)*/ - char dst[DST_SIZE]; /* Type of data source (null terminated)*/ - unival par[10]; /* index of this array see ds_param_en */ -} ds_def_t; - -/**************************************************************************** - * POS 3: rra_def_t ( * rra_cnt) one for each store to be maintained - ****************************************************************************/ -enum cf_en { CF_AVERAGE=0, /* data consolidation functions */ - CF_MINIMUM, - CF_MAXIMUM, - CF_LAST}; - -enum rra_par_en { RRA_cdp_xff_val=0}; /* what part of the consolidated - datapoint may be unknown, while - still a valid entry in goes into the rra */ - -#define CF_NAM_FMT "%19[A-Z]" -#define CF_NAM_SIZE 20 - -typedef struct rra_def_t { - char cf_nam[CF_NAM_SIZE];/* consolidation function (null term) */ - unsigned long row_cnt; /* number of entries in the store */ - unsigned long pdp_cnt; /* how many primary data points are - * required for a consolidated data - * point?*/ - unival par[10]; /* index see rra_param_en */ - -} rra_def_t; - - -/**************************************************************************** - **************************************************************************** - **************************************************************************** - * LIVE PART OF THE HEADER. THIS WILL BE WRITTEN ON EVERY UPDATE * - **************************************************************************** - **************************************************************************** - ****************************************************************************/ -/**************************************************************************** - * POS 4: live_head_t - ****************************************************************************/ - -typedef struct live_head_t { - time_t last_up; /* when was rrd last updated */ -} live_head_t; - - -/**************************************************************************** - * POS 5: pdp_prep_t (* ds_cnt) here we prepare the pdps - ****************************************************************************/ -#define LAST_DS_LEN 30 /* DO NOT CHANGE THIS ... */ - -enum pdp_par_en { PDP_unkn_sec_cnt=0, /* how many seconds of the current - * pdp value is unknown data? */ - - PDP_val}; /* current value of the pdp. - this depends on dst */ - -typedef struct pdp_prep_t{ - char last_ds[LAST_DS_LEN]; /* the last reading from the data - * source. this is stored in ASCII - * to cater for very large counters - * we might encounter in connection - * with SNMP. */ - unival scratch[10]; /* contents according to pdp_par_en */ -} pdp_prep_t; - -/* data is passed from pdp to cdp when seconds since epoch modulo pdp_step == 0 - obviously the updates do not occur at these times only. Especially does the - format allow for updates to occur at different times for each data source. - The rules which makes this work is as follows: - - * DS updates may only occur at ever increasing points in time - * When any DS update arrives after a cdp update time, the *previous* - update cycle gets executed. All pdps are transfered to cdps and the - cdps feed the rras where necessary. Only then the new DS value - is loaded into the PDP. */ - - -/**************************************************************************** - * POS 6: cdp_prep_t (* rra_cnt * ds_cnt ) data prep area for cdp values - ****************************************************************************/ -enum cdp_par_en { CDP_val=0, /* the base_interval is always an - * average */ - CDP_unkn_pdp_cnt }; /* how many unknown pdp were - * integrated. This and the cdp_xff - will decide if this is going to - be a UNKNOWN or a valid value */ - -typedef struct cdp_prep_t{ - unival scratch[10]; /* contents according to cdp_par_en * - * init state should be NAN */ - -} cdp_prep_t; - -/**************************************************************************** - * POS 7: rra_ptr_t (* rra_cnt) pointers to the current row in each rra - ****************************************************************************/ - -typedef struct rra_ptr_t { - unsigned long cur_row; /* current row in the rra*/ -} rra_ptr_t; - - -/**************************************************************************** - **************************************************************************** - * One single struct to hold all the others. For convenience. - **************************************************************************** - ****************************************************************************/ -typedef struct rrd_t { - stat_head_t *stat_head; /* the static header */ - ds_def_t *ds_def; /* list of data source definitions */ - rra_def_t *rra_def; /* list of round robin archive def */ - live_head_t *live_head; - pdp_prep_t *pdp_prep; /* pdp data prep area */ - cdp_prep_t *cdp_prep; /* cdp prep area */ - rra_ptr_t *rra_ptr; /* list of rra pointers */ - rrd_value_t *rrd_value; /* list of rrd values */ -} rrd_t; - -/**************************************************************************** - **************************************************************************** - * AFTER the header section we have the DATA STORAGE AREA it is made up from - * Consolidated Data Points organized in Round Robin Archives. - **************************************************************************** - **************************************************************************** - - *RRA 0 - (0,0) .................... ( ds_cnt -1 , 0) - . - . - . - (0, row_cnt -1) ... (ds_cnt -1, row_cnt -1) - - *RRA 1 - *RRA 2 - - *RRA rra_cnt -1 - - ****************************************************************************/ - - -#endif - - - - diff --git a/program/bindings/python/rrdtoolmodule.c b/program/bindings/python/rrdtoolmodule.c index c1ff42f8..f71fbb1d 100644 --- a/program/bindings/python/rrdtoolmodule.c +++ b/program/bindings/python/rrdtoolmodule.c @@ -28,6 +28,15 @@ * */ +#ifdef UNUSED +#elif defined(__GNUC__) +# define UNUSED(x) x __attribute__((unused)) +#elif defined(__LCLINT__) +# define UNUSED(x) /*@unused@*/ x +#else +# define UNUSED(x) x +#endif + static const char *__version__ = "$Revision: 1.14 $"; #include "Python.h" @@ -85,7 +94,7 @@ static char PyRRD_create__doc__[] = [RRA:CF:xff:steps:rows]"; static PyObject * -PyRRD_create(PyObject *self, PyObject *args) +PyRRD_create(PyObject UNUSED(*self), PyObject *args) { PyObject *r; char **argv; @@ -113,7 +122,7 @@ static char PyRRD_update__doc__[] = "N|timestamp:value[:value...] [timestamp:value[:value...] ...]"; static PyObject * -PyRRD_update(PyObject *self, PyObject *args) +PyRRD_update(PyObject UNUSED(*self), PyObject *args) { PyObject *r; char **argv; @@ -141,7 +150,7 @@ static char PyRRD_fetch__doc__[] = "[--start|-s start] [--end|-e end]"; static PyObject * -PyRRD_fetch(PyObject *self, PyObject *args) +PyRRD_fetch(PyObject UNUSED(*self), PyObject *args) { PyObject *r; rrd_value_t *data, *datai; @@ -232,7 +241,7 @@ static char PyRRD_graph__doc__[] = "[STACK:vname[#rrggbb[:legend]]]"; static PyObject * -PyRRD_graph(PyObject *self, PyObject *args) +PyRRD_graph(PyObject UNUSED(*self), PyObject *args) { PyObject *r; char **argv, **calcpr; @@ -281,7 +290,7 @@ static char PyRRD_tune__doc__[] = "[--data-source-type|-d ds-name:DST] [--data-source-rename|-r old-name:new-name]"; static PyObject * -PyRRD_tune(PyObject *self, PyObject *args) +PyRRD_tune(PyObject UNUSED(*self), PyObject *args) { PyObject *r; char **argv; @@ -307,7 +316,7 @@ static char PyRRD_last__doc__[] = "last(filename): Return the timestamp of the last data sample in an RRD"; static PyObject * -PyRRD_last(PyObject *self, PyObject *args) +PyRRD_last(PyObject UNUSED(*self), PyObject *args) { PyObject *r; int argc, ts; @@ -332,7 +341,7 @@ static char PyRRD_resize__doc__[] = " resize filename rra-num GROW|SHRINK rows"; static PyObject * -PyRRD_resize(PyObject *self, PyObject *args) +PyRRD_resize(PyObject UNUSED(*self), PyObject *args) { PyObject *r; char **argv; @@ -358,7 +367,7 @@ static char PyRRD_info__doc__[] = "info(filename): extract header information from an rrd"; static PyObject * -PyRRD_info(PyObject *self, PyObject *args) +PyRRD_info(PyObject UNUSED(*self), PyObject *args) { PyObject *r, *t, *ds; rrd_t rrd;