There is a difference between the RDML and RDMLX BIFs

There are some gems on the Lansa forums every once in a while. If you use Lansa (and if not, what are you doing here?) you should register there and follow the threads.

The thread about JSM/JSMX and builtin function signatures is very enlightening and I am quoting it here:

There is a difference between the RDML and RDMLX BIFs.

The RDML BIF cannot access the function internals to determine the working list field definition, so the SERVICE_LIST keyword is required on the command.

The RDMLX BIF can access the working list field definition, so the SERVICE_LIST keyword is not required and ignored.

RDML

1. The following command will only send the command string to the service.

use builtin(JSM_COMMAND) with_args(‘TEST KEY(VALUE)’) to_get(#JSMSTS #JSMMSG)

2. The following command will send the command string and all fields in the function to the service.

use builtin(JSM_COMMAND) with_args(‘TEST KEY(VALUE) SERVICE_EXCHANGE(*FIELD)’) to_get(#JSMSTS #JSMMSG)

3. The following command will send the command string, the working list and all fields in the function to the service.

use builtin(JSM_COMMAND) with_args(‘TEST KEY(VALUE) SERVICE_LIST(*FIELD)’) to_get(#JSMSTS #JSMMSG #WRKLST)

If a working list and the associated SERVICE_LIST keyword is used, then all fields are passed and a SERVICE_EXCHANGE(*FIELD) is not required on the same command.

RDMLX

1. The following command will only send the command string to the service.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE)’) to_get(#JSMXSTS #JSMXMSG)

2. The following command will send the command string and all fields in the function to the service.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE) SERVICE_EXCHANGE(*FIELD|*FIELDS)’) to_get(#JSMXSTS #JSMXMSG)

3. The following command will send the command string and working list to the service.

Note: the function fields are not sent.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE)’) to_get(#JSMXSTS #JSMXMSG #WRKLST)

4. The following command will send the command string, all fields in the function and working list to the service.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE) SERVICE_EXCHANGE(*FIELD|*FIELDS)’) to_get(#JSMXSTS #JSMXMSG #WRKLST)

5. The following command will send the command string and the function fields defined in the field list to the service.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE)’ #FLDLST) to_get(#JSMXSTS #JSMXMSG)

6. The following command will send the command string and function fields defined in the field list and the working list to the service.

use builtin(JSMX_COMMAND) with_args(#JSMXHDLE ‘TEST KEY(VALUE)’ #FLDLST) to_get(#JSMXSTS #JSMXMSG #WRKLST)

(slightly edited by me)

In summary:

  • In JSMX BIFs you can send a working list to the service, with or without sending all or some of the fields in the function.
  • In JSM BIFs you can only choose to send none or all of the fields in the function to the service, and if you send all fields you can also send a working list.
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SCANSTRING and lower case searches

This is a case where the documentation is clear but the default value is at best strange.

The built in SCANSTRING function’s 4th parameter, “Compare in uppercase”, which defaults to “1”, meaning no, does exactly the opposite. While the naming of the parameter and the default value is at best strange, the note in the documentation is clear: Using the default value you cannot find anything if searching with a lowercase string.

Not. A. Thing.

Apparently the default value of “don’t compare in uppercase” (if the name is to be taken seriously) means that the string we are searching in is uppercased and then the search is performed case-sensitively.

While if we go for the non-default “compare in uppercase” the string is not changed and if there is a case-sensitive match, we get that result back.

In RDMLX we have a couple of alternatives which seem a lot simpler, all explicitly case sensitive:
STRING.Contains(SEARCHSTRING) (returns true or false)
STRING.PositionOf(SEARCHSTRING) (returns position of match)
SEARCHSTRING.PositionIn(STRING) (returns position of match)

I miss regular expressions.

The difference between Label and Label

Looking for a control to do some specific thing, I landed upon label. Then I started looking for alternatives to do the very specific thing I was looking for and so I found … label. Not the same though.

PRIM_LABL (Label) and PRIM_SLAB (Label) are obviously different. There are a few properties and I believe methods that are missing in one but the documentation does not explain a use case for one or the other, nor why one should choose one (or the other).

I believe the Lansa documentation is severely lacking.

Keyed collections and getting the key

I fear this will be my “Carthago delenda est“: Furthermore, I believe the Lansa documentation is severely lacking.

Case in point, today, using Visual Lansa 14.1 and the online and up-to-date documentation, I wanted to use a keyed collection. I wanted to use this in a way where I can later loop through the collection getting keys and values.

Now, had I started on 7.60.1 FOR Parameters I might have guessed this earlier, but I didn’t. I started on Keyed Collection (PRIM_KCOL). Silly me.

It does tell me how to define a keys collection but in a roundabout way. So the definition goes like this

#PRIM_COL

Like:

Define_Com Class(#PRIM_KCOL<#PRIM_VAR #CHAR512>) Name(#COL1)

which defines a collection #COL1 with keys of type #CHAR512 and values of the variant type, #PRIM_VAR. You have to use repository fields as the key type for some reason, but there is no such requirement for the key value.

Now, #COL1.ItemCount can tell me how many pairs of keys and values are in the collection but there is no way to use this to iterate through the collection.

Since I had not started on the FOR page I tried this:

For Each(#COL1_VAL) In(#COL1)
#COL1_KEY := #COL1.KeyOf<#COL1_VAL>
...
Endfor

which actually works. I did however suspect that it could have some form of performance issues and also would only work consistently if all values were unique.

But wild and semi-random searching of the documentation lead me to the poorly demonstrated Key parameter for the For loop:

For Each(#COL1_VAL) in(#COL1) Key(#COL1_KEY)

This works.

I have also tried to find the documentation on the different assignment operators. I know what +=, -=, *= and /= does, but apparently I don’t know what := does since sometimes I need to use <=:

#VAR_OBJ <= #COL1<#COL1_KEY>
...
#COL1_VAL := #COL1<#COL1_KEY>.String
...
#COL1_VAL := #VAR_OBJ.String

I am guessing <= passes a reference while := assigns a value.

Furthermore, I believe the Lansa documentation is severely lacking.

ModalResult

I will swear that the documentation does not contain any information about what happens when you assign a value to the ModalResult property of a form. In fact, ModalResult is a property of push buttons (PRIM_PHBN), but when a button is pushed, the ModalResult is supposed to be migrated to the form as well.

This became apparent when I had a form with a reusable that tried to catch invalid input when the user clicked on a button. Unfortunately, the reusable sent a signal to an event which then set the ModalResult property, closing the form no matter what I tried to do.

It turns out that assigning a value to ModalResult closes the modal form immediately.

Evtroutine Handling(ÆPHBN_1.Click)
  If Cond(...)
    ...
  Else
    #COM_OWNER.ModalResult := OK
  Endif
Endroutine

 

AsInteger and AsNumber

There’s a special place somewhere for whoever thought of this. The intrinsic functions AsInteger and AsNumber work in very different ways and I believe they are so badly named that this “feature” is a bug.

Anyway, that is how it is in RDMLX.

So.

Which of these functions can be used to convert the content of a string to a numeric value? Like the string “53”?

Yes, it is a naughty example, because if you run both of these on Windows you get the same result, 53.

#STR := "53"
#NUM := #STR.AsNumber /* returns 53 */
#INT := #STR.AsInteger /* returns 53 */

But that is a trick. On IBM i I would have needed to use “242” to get the same value from both functions because

AsInteger returns the character code of the first character in the string

True, that will be an integer, but the name of the function is terrible.

The reason the code above gives the same result is that the character code for “5” in ASCII (Windows) is 53, while the character code for “2” in EBCDIC (IBM i) is 242.

It does not matter how long the string is, AsInteger will only look at the first character.

But really, it should have been called something with CharCode.

Having said that:

As long as I don’t care about character codes, it is AsNumber I need to use.

V.14.1 still crashes on invalid XSLT

The bug I wrote about some time ago with invalid XSLT still exists in v.14.1

That time it was missing the <tbody> in a <table>. This time it was an <input> inside a <tr>. Obviously wrong, I know, but apparently whichever version it was written in back in 2010/2011 allowed it and today, when I wanted to do an edit, the editor crashed.

The <input> was moved to the <td> within the <tr>.

And this is why some people hate Javascript

Working on our VLF application, I ran into a problem for our Microsoft Edge users: If the command handler window was expanded (the draggable bar pulled upwards) beyond a certain point, only the filter window contracted. Not the instance list and thereby effectively nor the command handler window.

The problem comes from resizing of the table cells, the function VF_SY001_PRIVATE_SizeInstanceList_Height in VF_XXNNN.js.

So I chose to overwrite the function in an additional javascript file, if the user is in Edge:

window.setTimeout(function() {
if (window.navigator.userAgent.indexOf("Edge") > -1) {
var func = VF_SY001_PRIVATE_SizeInstanceList_Height;
VF_SY001_PRIVATE_SizeInstanceList_Height = function(sHeight) {
func(sHeight);
let nHeight = parseInt(sHeight);
nHeight = nHeight + 24;
nHeight = "" + nHeight + "px";
document.getElementById("VF_UM011_Container").style.height = nHeight;
};
}
}, 1000);

I set the func variable to the original function, overwrite the function to call the original plus some extra code. Now I just need it tested by others.

Lansa Editor still rewrites my code

A follow-up to the other post from last year, I have now experienced this in a new and disturbing way.

I realize that this code is not pretty but it was just a quick job that I would fix later. In this case, I added some javascript that would append an HTML element with an attribute. The javascript used double-pings (“) and the attribute would then use pings (‘):

2017-02-14_090415

Unfortunately, when checking in the changes the Lansa Editor changed the pings to double-pings, rendering my code buggy.

Switching technology services

I have now had the help from Lansa support for a very specific problem. We have a number of solutions, some of which use the XHTML technology service, some the PPC_XHTML technology service.

None of these solutions use more than one technology service.

PPC_XHTML is no longer supported by Lansa so when we upgraded to v.14 this presented a problem. Support found a way to make it work and we continued, making only minor adjustments to the code.

Now we have been upgraded to v.14.1 and something broke in the process.

It can still be made to work but we can only have either XHTML or PPC_XHTML working at the same time. Due to a deadline we will live with that for a short time and then we will start the migration of the PPC_XHTML solutions.

The work-around is this:

Getting XHTML to work: Use Tools -> Import to import the v.14.1. weblets. Done.

Getting PPC_XHTML to work: Use Tools -> Import to import the old v.12 weblets. Check out the specific design weblets made for our solution. Check out the WAM that we need to work with. Done.

So, not bad but not optimal either. That is of course the problem using a technology that is no longer supported.