EUREKA!
Thanks guys! You have been a huge help. I have finally figured it out.
My problem was more like 3 problems...
1. I have never done EEPROM stuff before so I was lost to begin with.
2. As Bruce pointed out, the mathematical order of operations in one line was not correct. I guess the BS2 thinks a little differently from PBP in that respect.
3. My PicBasic Pro compiler was Version 2.30 form 2000. It seems that v2.30 supports the PIC 16F628 but the PIC 16F628A was implemented in a later version. I have upgraded my PBP to version 2.47 and now the EEPROM features work correctly on the 16F628A. When I successfully tested a 16F84A using the same code, that lead me to question the compiler.
So for future generations and the benefit of other people like me, here's my WORKING code that is tested successfully on a PIC 16F628A with a 20MHz resonator compiled using PBP v2.47. It reads data from the Parallax RFID Reader Module, compares it against known values stored in EEPROM and allows or denies access accordingly. Enjoy.
Code:
CMCON = 7
DEFINE OSC 20 'Set oscillator in MHz
' -----[ Variables ]-------------------------------------------------------
buf VAR Byte(10) ' RFID bytes buffer
tagNum VAR Byte ' from EEPROM table
idx VAR Byte ' tag byte index
char VAR Byte ' character from table
' -----[ EEPROM Data ]-----------------------------------------------------
Tag1 DATA "100050A4B7"
Tag2 DATA "1000508E0A"
Tag3 DATA "10005091DC"
Tag4 DATA "100050203A"
Tag5 DATA "100050DA36"
' -----[ Initialization ]--------------------------------------------------
HIGH portb.3 ' turn off RFID reader
LOW portb.6 ' lock the door!
Low portb.4 'Turn off LED
' -----[ Program Code ]----------------------------------------------------
Main:
LOW portb.3 ' activate the reader
SERIN2 portb.2, 396, [WAIT($0A), STR buf\10] ' wait for hdr + ID
HIGH portb.3 ' deactivate reader
Check_List:
FOR tagNum = 1 to 5 ' scan through known tags
FOR idx = 0 TO 9 ' scan bytes in tag
READ (((tagNum-1) * 10) + idx), char ' get tag data from table
IF (char <> buf(idx)) THEN Bad_Char ' compare tag to table
NEXT
GOTO Tag_Found ' all bytes match!
Bad_Char: ' try next tag
NEXT
Bad_Tag:
tagNum = 0
FREQOUT portb.5, 1000 */ $100, 115 */ $100 ' groan
PAUSE 1000
GOTO Main
Tag_Found:
HIGH portb.6 ' remove latch
High portb.4 ' Light LED
FREQOUT portb.5, 2000 */ $100, 880 */$100 ' beep
LOW portb.6 ' restore latch
Low portb.4 ' LED OFF
GOTO Main
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