I am looking forward to upgrading

We are still at v.14.1 and v.12 but will soon be upgrading to v.14.2 and v.15, respectively. That’s good.

Unfortunately, I doubt upgrading from v.14.1 to v.14.2 will solve the basic XSLT editing problems in the Lansa editor. Currently, I had a WAM fail when I had saved this XSLT/XML

<tr><input id="{$WSSHPLNR/@id}" type="hidden" name="{$WSSHPLNR/@id}" value="{$WSSHPLNR}" /><td ...

and when I, the next day, loaded the WAM, or whenever I switch between the “XSL” and “Web Page” tabs in the design tab, it gets changed to

<tr /><input id="{$WSSHPLNR/@id}" type="hidden" name="{$WSSHPLNR/@id}" value="{$WSSHPLNR}" /><td ...

Solution? Move the <input> tag to before the <tr> tag. Yes, I know, I should have done that anyway, but the editor shouldn’t make my content illegal when I switch tabs.

Server modules live separate lives

As much of the other posts I write here, this relates to something that surprised me.

Currently I write a lot of server modules as APIs, and this time I needed to submit a job for some processing. But for some reason this failed and I couldn’t find a reason.

That wasn’t really a problem, because I could just save the data I needed to process in a saved list and have a batch job read the list and do the processing.

Except, that didn’t work either.

Maybe that’s what Lansa means by

SAVE_LIST and RESTORE_SAVED_LIST should be used in the same context. That is, you should not use SAVE_LIST from within a function run on the WEB and later restore the saved list from within a function run as a Visual LANSA function.

Because even though the saved list was stored in DC@F80, the F80P#I field was not set to the partition I was using. It was set to “SYS”. So, in the batch job I couldn’t read the saved list, because the batch job was a regular function.

Adjust for a Datetime

The Date type has an Adjust intrinsic, which I commonly use for numbers as

#FAKYMD := #FAKYMD.AsDate( CCYYMMDD ).Adjust( -30 ).AsNumber( CCYYMMDD )

The Datetime type has no such intrinsic, but when I end up with a datetime stored in a number, I have used this roundabout way:

#FAKTIME := ((#FAKTIME / 1000000).AsDate( CCYYMMDD ).Adjust( -30 ).AsNumber( CCYYMMDD ) * 1000000) + (#FAKTIME.Mod( 1000000 ))

#FAKYMD is 8 digits, YYYYMMDD, #FAKTIME is 14 digits, YYYYMMDDhhmmss, in my examples.

Writing space to a file

This should be easy, but it’s not in RDML. The current solution I have is using HEXTOBIN and binary writing.

I am writing to a file and need to write a space character in certain situations. The codepage of the file is Windows-1252 (mostly equivalent to Latin1 or ISO-8859-1).

I opened the file with

Use Builtin(STM_FILE_OPEN) With_Args(#FILENAME 'APPEND TEXT LINETERMINATOR=NONE CODEPAGE=1252') To_Get(#FILENO #RETNCODE)

but if try to output a space character it gets trimmed and no space is added to the file. Instead I close, open, close and re-open:

Use Builtin(STM_FILE_OPEN) With_Args(#FILENAME 'APPEND BINARY LINETERMINATOR=NONE') To_Get(#FILENO #RETNCODE)
Use Builtin(HEXTOBIN) With_Args('20' Y) To_Get(#WCHAR1)
Use Builtin(STM_FILE_WRITE) With_Args(#FILENO2 #WCHAR1) To_Get(#RETNCODE)
Use Builtin(STM_FILE_CLOSE) With_Args(#FILENO2)
Use Builtin(STM_FILE_OPEN) With_Args(#FILENAME 'APPEND TEXT LINETERMINATOR=NONE CODEPAGE=1252') To_Get(#FILENO #RETNCODE)

This paradoxically only worked because I am running on a different codepage than Windows-1252, so the binary value 0x20 is not considered a space character (it’s Digit Select, whatever that is).

No, it’s not efficient.

Length of string

In RDMLX, easy, just

#LEN := #STR.CurChars

But in RDML it’s not so easy and for some reason there’s not even a buit-in function to return the length of a string.

So I made this:

Define Field(#W_C256) Type(*CHAR) Length(256)
Define Field(#W_C256_B) Type(*CHAR) Length(256)
Define Field(#W_C1) Type(*CHAR) Length(1)
Define Field(#W_D3_0) Type(*DEC) Length(3) Decimals(0)

Subroutine Name(LENGTH) Parms((#W_C256 *RECEIVED) (#W_D3_0 *RETURNED))
  Use Builtin(RIGHT) With_Args(#W_C256) To_Get(#W_C256_B)
  Substring Field(#W_C256_B 256 1) Into_Field(#W_C1)
  Use Builtin(REVERSE) With_Args(#W_C256) To_Get(#W_C256_B)
  Use Builtin(SCANSTRING) With_Args(#W_C256_B #W_C1) To_Get(#W_D3_0)
  Change Field(#W_D3_0) To('(256 + 1) - #W_D3_0')
Endroutine

which I then include when necessary.

Another example of Lansa messing with my XSLT

We are still running on v. 12 and 14.1 (two separate solutions), while waiting for help to upgrade the 12 to 14.2. The upgrade has so far taken almost a month.

So I had to dive back into WAM’s in 12 and added a <svg> element.

Which is then promptly messed up by Lansa, moving the SVG contents out of the element and making the <svg> element empty. Just like I experienced with 14.1.

Select_Sql does not validate SQL source

I made this error and spent a long time trying to spot it:

Select_Sql Fields((#ANTAL 'SUM(ANTAL')) From_Files(TRANS) Where(...)
...
Endselect

That is how I learned that the optional SQL source for a field is not validated in the editor or during compilation. Adding the missing end-parenthesis fixed my error:

                                    |
                                    V
Select_Sql Fields((#ANTAL 'SUM(ANTAL)')) From_Files(TRANS) Where(...)
...
Endselect

You got me there

Working with CONDCHECK I got confused. The condition check works to mark a field that is filled out incorrectly, but the condition is to be read as “these conditions should be satisfied, if not…”.

Which makes sense; you write the condition that you want satisfied. If it isn’t you get the message.

My problem was that I thought of it in the context of if … then; if this condition is satisfied, I should get the message. Which I now realise was wrong.

An XSLT example

I needed this, so here it is for posterity:

In the list BUTLST, I wanted to select the value from the field WCHAR36, on the entry where the value from the field BUTNR matched the mapped field IZBUTNR.

So, in sequence, I wanted

the list BUTLST

/lxml:data/lxml:lists/lxml:list[@name='BUTLST'] ...

the value from the field WCHAR36

... lxml:column[@name='WCHAR36']

on the entry where the value from the field BUTNR

... lxml:list-entries/lxml:entry/lxml:column[@name='BUTNR'][text() ... ]

matched the mapped field IZBUTNR

... = key('field-value', 'IZBUTNR') ...

Completed that is

/lxml:data/lxml:lists/lxml:list[@name='BUTLST']/lxml:list-entries/lxml:entry/lxml:column[@name='BUTNR'][text() = key('field-value', 'IZBUTNR')]/../lxml:column[@name='WCHAR36']

with

Def_List Name(#BUTLST) Fields(#BUTNR #BUNAVN #WCHAR36) Type(*WORKING) Entrys(*MAX)
Web_Map For(*BOTH) Fields(#IZBUTNR #BUTLST )

8 characters is the limit

I keep forgetting this, cause I do development in other languages and frameworks as well, and nothing in the LANSA editor stops me. But WAM command handlers must not have a name of more than 8 characters.

Or rather, it can and it will work, but then when you try to set it up in the VLF, you, again without warning, enter the more-than-8 character name and lo and behold, you end up with errors on your site.

Instead, a command handler named, for example, CH_FAKKOP, should be referenced in the VLF by the first 8 characters, CH_FAKKO, even though the WAM component is 9 characters.

Edit: This also applies to the WAM name in XSLT, like

<xsl:with-param name="on_change_wrname" select="'UHandleEvent'" />
<xsl:with-param name="on_change_wamname" select="'CH_FAKKO'" />