$StatD: Difference between revisions
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<span class="pageSubtitle">Calculate differences and rates for statistics strings</span> | <span class="pageSubtitle">Calculate differences and rates for statistics strings</span> | ||
<p class=" | <p class="warn"><b>Note: </b>Many $functions have been deprecated in favor of Object Oriented methods. The OO equivalent for the $StatD function is the [[UserStatistics class]].</p> | ||
This function allows calculation of differences and rates for statistics strings. These statistics strings must be in a format identical to strings produced by $FISTAT, $SYSTAT, $TKSTAT, $SsStat and $UsStat. | This function allows calculation of differences and rates for statistics strings. These statistics strings must be in a format identical to strings produced by <var>$FISTAT</var>, <var>$SYSTAT</var>, <var>$TKSTAT</var>, <var>$SsStat</var>, and <var>$UsStat</var>. | ||
The $StatD function accepts four arguments and returns a string made up of an error code and returned statistics. | The <var>$StatD</var> function accepts four arguments and returns a string made up of an error code and returned statistics. | ||
The | ==Syntax== | ||
<p class="syntax"><span class="term">%string</span> = <span class="literal">$StatD</span>(<span class="term">stat_string1</span>, <span class="term">stat_string2</span>, <span class="term">ctl_string</span>, [<span class="term">divisor</span>]) | |||
</p> | |||
===Syntax terms=== | |||
<table> | |||
<tr><th>%string</th> | |||
<td>The returned string consists of binary data, the first 4 bytes of which is an error code. If the error code is negative, <var class="term">%string</var> will only be 4 bytes long.</td></tr> | |||
<tr><th>stat_string1</th> | |||
<td>This string contains an EBCDIC identifier in bytes 1-10, a binary number in bytes 11-12, and data in bytes 13 to the end of the string. </td></tr> | |||
<tr><th>stat_string2</th> | |||
<td>This string contains an EBCDIC identifier in bytes 1-10, a binary number in bytes 11-12, and data in bytes 13 to the end of the string. For differences to be calculated, bytes 1-12 must match bytes 1-12 of the <var class="term">stat_string1</var> argument. </td></tr> | |||
<tr><th>ctl_string</th> | |||
<td>This control string contains blank-delimited tokens describing the action to be performed for each 4 byte chunk of the input strings. The available actions are: | |||
<ul> | <ul> | ||
<li>'N' - stands for number. Simply copy 4 bytes from argument 2. | <li>'N' - stands for number. Simply copy 4 bytes from argument 2. | ||
<li>'D' - stands for difference. Calculate binary difference between 4 bytes in argument 2 and argument 1. | <li>'D' - stands for difference. Calculate binary difference between 4 bytes in argument 2 and argument 1. | ||
<li>'R' - stands for rate. Calculate binary difference between 4 bytes in argument 2 and argument 1, multiply by 1,000,000 and then divide by argument 4. Argument 4 is required if an R is included in the control string. | <li>'R' - stands for rate. Calculate binary difference between 4 bytes in argument 2 and argument 1, multiply by 1,000,000 and then divide by argument 4. Argument 4 is required if an R is included in the control string. | ||
</ul> | </ul> </td></tr> | ||
<tr><th>divisor</th> | |||
<td>This a number to be used as a divisor in calculating rates. This optional argument is required if there is an 'R' in the <var class="term">ctl_string</var> argument. This would ordinarily be the elapsed time between calculation of the <var class="term">stat_string1</var> and the <var class="term">stat_string2</var> argument.</td></tr> | |||
</table> | |||
== | ===Return codes=== | ||
<p class=" | <p class="code"> -5 - Required parameter not specified | ||
-12 - Invalid control string | |||
-13 - Invalid rate divisor | |||
-14 - Invalid length input string | |||
-15 - First 12 bytes don't match in input | |||
</p> | </p> | ||
The data returned by $StatD is binary with the first 4 bytes containing an error code. If the error code is negative, only 4 bytes are returned. If the differences were successfully calculated, the first 4 bytes are set to binary 0. When a zero error code is returned the next 12 bytes contain a copy of the first 12 bytes of argument 1 and 2. This means that the actual data starts at offset 16 (byte number 17) in the result string. | ==Usage notes== | ||
<ul> | |||
<li>The data returned by <var>$StatD</var> is binary with the first 4 bytes containing an error code. If the error code is negative, only 4 bytes are returned. If the differences were successfully calculated, the first 4 bytes are set to binary 0. When a zero error code is returned, the next 12 bytes contain a copy of the first 12 bytes of argument 1 and 2. This means that the actual data starts at offset 16 (byte number 17) in the result string. | |||
</ul> | |||
The following program displays system CPU as a rate and difference over a one second interval and as a total over the whole run | ==Example== | ||
The following program displays system CPU as a rate and difference over a one second interval and as a total over the whole run: | |||
<p class="code">Begin | |||
%data is string len 255 | |||
%data1 is string len 255 | |||
%data2 is string len 255 | |||
%data1 = $SyStat('CPU SVIO DNSCACHE DNSRTIMO'):subString(5) | |||
pause 1 | |||
%data2 = $SyStat('CPU SVIO DNSCACHE DNSRTIMO'):subString(5) | |||
%data = $statD( %data1, %data2, 'R R N N', 1000) | |||
Text | |||
%data | |||
Return Code = {$UnBin($subStr(%data,1,4))} | |||
CPU = {$UnBin($SUBSTR(%data,17,4))} | |||
SVIO = {$UnBin($SUBSTR(%data,21,4))} | |||
DNSCACHE = {$UnBin($SUBSTR(%data,25,4))} | |||
DNSRTIMO = {$UnBin($SUBSTR(%data,29,4))} | |||
end Text | |||
End | |||
</p> | </p> | ||
==Products authorizing {{PAGENAMEE}}== | |||
<ul class="smallAndTightList"> | |||
<li>[[SirMon]] | <li>[[SirMon]] | ||
</ul> | </ul> | ||
[[Category:$Functions|$StatD]] | [[Category:$Functions|$StatD]] |
Latest revision as of 23:28, 20 September 2018
Calculate differences and rates for statistics strings
Note: Many $functions have been deprecated in favor of Object Oriented methods. The OO equivalent for the $StatD function is the UserStatistics class.
This function allows calculation of differences and rates for statistics strings. These statistics strings must be in a format identical to strings produced by $FISTAT, $SYSTAT, $TKSTAT, $SsStat, and $UsStat.
The $StatD function accepts four arguments and returns a string made up of an error code and returned statistics.
Syntax
%string = $StatD(stat_string1, stat_string2, ctl_string, [divisor])
Syntax terms
%string | The returned string consists of binary data, the first 4 bytes of which is an error code. If the error code is negative, %string will only be 4 bytes long. |
---|---|
stat_string1 | This string contains an EBCDIC identifier in bytes 1-10, a binary number in bytes 11-12, and data in bytes 13 to the end of the string. |
stat_string2 | This string contains an EBCDIC identifier in bytes 1-10, a binary number in bytes 11-12, and data in bytes 13 to the end of the string. For differences to be calculated, bytes 1-12 must match bytes 1-12 of the stat_string1 argument. |
ctl_string | This control string contains blank-delimited tokens describing the action to be performed for each 4 byte chunk of the input strings. The available actions are:
|
divisor | This a number to be used as a divisor in calculating rates. This optional argument is required if there is an 'R' in the ctl_string argument. This would ordinarily be the elapsed time between calculation of the stat_string1 and the stat_string2 argument. |
Return codes
-5 - Required parameter not specified -12 - Invalid control string -13 - Invalid rate divisor -14 - Invalid length input string -15 - First 12 bytes don't match in input
Usage notes
- The data returned by $StatD is binary with the first 4 bytes containing an error code. If the error code is negative, only 4 bytes are returned. If the differences were successfully calculated, the first 4 bytes are set to binary 0. When a zero error code is returned, the next 12 bytes contain a copy of the first 12 bytes of argument 1 and 2. This means that the actual data starts at offset 16 (byte number 17) in the result string.
Example
The following program displays system CPU as a rate and difference over a one second interval and as a total over the whole run:
Begin %data is string len 255 %data1 is string len 255 %data2 is string len 255 %data1 = $SyStat('CPU SVIO DNSCACHE DNSRTIMO'):subString(5) pause 1 %data2 = $SyStat('CPU SVIO DNSCACHE DNSRTIMO'):subString(5) %data = $statD( %data1, %data2, 'R R N N', 1000) Text %data Return Code = {$UnBin($subStr(%data,1,4))} CPU = {$UnBin($SUBSTR(%data,17,4))} SVIO = {$UnBin($SUBSTR(%data,21,4))} DNSCACHE = {$UnBin($SUBSTR(%data,25,4))} DNSRTIMO = {$UnBin($SUBSTR(%data,29,4))} end Text End