Difference between revisions of "Inputs as Key Matrix (ICX-AlphaCom)"

Revision as of 10:11, 9 February 2023

Input 4	Input 3	Input 2	Input 1	Virtual Input triggered
0	0	0	1	Virtual Input 1
0	0	1	0	Virtual Input 2
0	0	1	1	Virtual Input 3
0	1	0	0	Virtual Input 4
0	1	0	1	Virtual Input 5
0	1	1	0	Virtual Input 6
0	1	1	1	Virtual Input 7
1	0	0	0	Virtual Input 8
1	0	0	1	Virtual Input 9
1	0	1	0	Virtual Input 10
1	0	1	1	Virtual Input 11
1	1	0	0	Virtual Input 12
1	1	0	1	Virtual Input 13
1	1	1	0	Virtual Input 14
1	1	1	1	Virtual Input 15
0	0	0	0	Inputs released

The Virtual Input actions are configured from the Event Handler.

Events

2 events are required to process inputs as a matrix. Shown below are the events required for 15 inputs (2^4). You can expand this to 63 inputs (2^6) if required.

On button press

Here, we use the serial nature of the Event Handler to process the individual inputs.
By assigning a bitwise value to the input, we can add this value to a UDD associated with the physical number.
As each successive input is processed by the event handler, a total sum is derived.

Action commands:

IF %op(%sev(1),=,1)
!Input 1
WUDD %1.PHY %op(%udd(%1.PHY),+,1)
ENDIF
IF %op(%sev(1),=,2)
!Input 2
WUDD %1.PHY %op(%udd(%1.PHY),+,2)
ENDIF
IF %op(%sev(1),=,3)
!Input 3
WUDD %1.PHY %op(%udd(%1.PHY),+,4)
ENDIF
IF %op(%sev(1),=,4)
!Input 4
WUDD %1.PHY %op(%udd(%1.PHY),+,8)
ENDIF

On button release

Here, we again rely on the serial processing of the input release.
First we check if the UDD has a value other than 0.
Then we check the value of the UDD and process the required command. This can be a $DD, $DIAL_DAK, $SM or any other DP command.
After the first round of processing, the UDD is returned to 0 so that successive input release commands do not execute.

IF %udd(%1.phy)
IF %op(%udd(%1.phy),=,1)
!Virtual Input 1
$DD L%1.DIR L101
ENDIF
IF %op(%udd(%1.phy),=,2)
!Virtual Input 2
$DD L%1.DIR L102
ENDIF
IF %op(%udd(%1.phy),=,3)
!Virtual Input 3
$DD L%1.DIR L103
ENDIF
IF %op(%udd(%1.phy),=,4)
!Virtual Input 4
$DD L%1.DIR L104
ENDIF
IF %op(%udd(%1.phy),=,5)
!Virtual Input 5
$DD L%1.DIR L105
ENDIF
IF %op(%udd(%1.phy),=,6)
!Virtual Input 6
$DD L%1.DIR L106
ENDIF
IF %op(%udd(%1.phy),=,7)
!Virtual Input 7
$DD L%1.DIR L107
ENDIF
IF %op(%udd(%1.phy),=,8)
!Virtual Input 8
$DD L%1.DIR L108
ENDIF
IF %op(%udd(%1.phy),=,9)
!Virtual Input 9
$DD L%1.DIR L109
ENDIF
IF %op(%udd(%1.phy),=,10)
!Virtual Input 10
$DD L%1.DIR L110
ENDIF
IF %op(%udd(%1.phy),=,11)
!Virtual Input 11
$DD L%1.DIR L111
ENDIF
IF %op(%udd(%1.phy),=,12)
!Virtual Input 12
$DD L%1.DIR L112
ENDIF
IF %op(%udd(%1.phy),=,13)
!Virtual Input 13
$DD L%1.DIR L113
ENDIF
IF %op(%udd(%1.phy),=,14)
!Virtual Input 14
$DD L%1.DIR L114
ENDIF
IF %op(%udd(%1.phy),=,15)
!Virtual Input 15
$DD L%1.DIR L115
ENDIF
WUDD %1.phy 0
ENDIF

@@ Line 102: / Line 102: @@
 <br style="clear:both;" />
 {{Code2|
-IF %op(%sev(1),<nowiki>=</nowiki>,1)
+ IF %op(%sev(1),<nowiki>=</nowiki>,1)
-!Input 1<BR>
+ !Input 1
-WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,1)<br>
+ WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,1)
-ENDIF<br>
+ ENDIF
-IF %op(%sev(1),<nowiki>=</nowiki>,2)<br>
+ IF %op(%sev(1),<nowiki>=</nowiki>,2)
-!Input 2<br>
+ !Input 2
-WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,2)<br>
+ WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,2)
-ENDIF<br>
+ ENDIF
-IF %op(%sev(1),<nowiki>=</nowiki>,3)<br>
+ IF %op(%sev(1),<nowiki>=</nowiki>,3)
-!Input 3<br>
+ !Input 3
-WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,4)<br>
+ WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,4)
-ENDIF<br>
+ ENDIF
-IF %op(%sev(1),<nowiki>=</nowiki>,4)<br>
+ IF %op(%sev(1),<nowiki>=</nowiki>,4)
-!Input 4<br>
+ !Input 4
-WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,8)<br>
+ WUDD %1.PHY %op(%udd(%1.PHY),<nowiki>+</nowiki>,8)
-ENDIF<br>
+ ENDIF
 }}

Difference between revisions of "Inputs as Key Matrix (ICX-AlphaCom)"

From Zenitel Wiki

Revision as of 10:11, 9 February 2023

Contents

Use Inputs As Key Matrix

Events

On button press

On button release