HP BASIC for OpenVMS
HP BASIC for OpenVMS is the latest name for a dialect of the BASIC programming language created by Digital Equipment Corporation and now owned by Hewlett-Packard. Although it was developed before VMS on the PDP-11 platform, it was later ported to VMS on VAX then OpenVMS on Alpha. It has recently been ported to OpenVMS on Integrity (HP's name for servers based upon Itanium processors from Intel).
Notable features
HP BASIC has many FORTRAN-like extensions, as well as supporting the original Dartmouth BASIC matrix operators.
line numbers are optional, unless the "ERL" function is present. It allows you to write "WHEN ERROR" error handlers around protected statements. The more traditional but less elegant "ON ERROR" statement lacks such context or scope.
One of HP BASIC's more innovative features is built-in support for OpenVMS's powerful Record Management Services (RMS). Before VAX BASIC (as it was then called), you would only get native RMS support in DEC's COBOL compiler.
History
HP BASIC for OpenVMS has gone through many name changes. It began at DEC, which was bought by Compaq, who then merged with HP. Since the company name is embedded in the product name, each new owner changed the product name. It has also been ported to a succession of new platforms as they were developed by DEC/Compaq/HP, over a period of more than 30 years.
BASIC-PLUS
HP BASIC began as BASIC-PLUS, created by DEC for their RSTS-11 operating system and PDP-11 minicomputer. Programming language statements could either be typed into the command interpreter directly, or entered into a text editor, saved to a file, and then loaded into the command interpreter from the file. Errors in source code were reported to the user immediately after the line was entered.
Programs were stored as a .BAS source file, using the "SAVE" command. It could be "compiled" into a non-editable binary .BAC file, using the "COMPILE" command. This command did not produce true machine language programs, but rather a byte code called "tokens". The tokens were interpreted upon execution, in a manner similar to the more modern Java.
Programs were entered into the command interpreter starting with line numbers, integers from 1 to 32767. Lines could be continued onto multiple lines by using a line feed character. For ease of external editing of the source file, later versions of BASIC-PLUS also allowed the & character as a line-continuation character. Multiple statements could be placed on a single line using \ as the statement separator.
For PDP-11 systems with virtual memory (RSTS/E), address space was limited to about 64 KB. With BASIC-PLUS, about half of this was used by the combined command interpreter and run-time library. This limited user programs to about 32 KB of memory. Older RSTS-11 systems lacked virtual memory, so the user program had to fit into whatever was left of physical memory after RSTS and BASIC-PLUS took up their share. For example, on a PDP-11/35 with 32K of physical memory, running RSTS-11 V04B-17, user programs were limited to 7 KB. Large programs could be broken up into various pieces by use of the "CHAIN" instruction. Programs could chain to specific line numbers in a secondary program. The use of a shared memory section called core common also allowed programs to pass data among each other as needed; disk files could also be used but were slower.
The interpreter included a garbage collecting memory manager, used for both string data and byte-code. A running program could be interrupted, have variables examined and modified, and then be resumed. Many of the control structures used in other high-level languages existed in BASIC-PLUS, including WHILE and UNTIL. The language also supported the use of conditional modifiers on a single line. For example, the line "PRINT I UNLESS I < 10" would print the value of "I" unless I was less than 10.
BASIC Plus 2
Basic Plus 2 (BP2 or BASIC-Plus-2) was later developed by DEC to add additional features and increase performance. It used true compilation into threaded code, and wrote its output to machine language object files. These were compatible with other object files on the system, and could be assembled into libraries. A linker (the TKB taskbuilder) then created executable files from them. TKB also supported overlays; this allowed individual routines to be swapped into the main memory space as needed.
BP2 programs ran under RSX-11 or RSTS/E's RSX Run Time System. This RTS only occupied 8KB (later, 2KB) of the user's address space, leaving 56KB for the user's program. These two factors allowed individual BP2 programs to be much larger than BASIC-PLUS programs, often eliminating the need for CHAINing. Unlike BASIC-PLUS (which was only available on RSTS-11), BP2 allowed use on the RSX-11 operating system as well.
VAX BASIC and DEC BASIC
With the creation of the VAX minicomputer, DEC ported BASIC-PLUS-2 to the new VMS operating system, and called it VAX BASIC. VAX BASIC used the standard VMS calling standards, so object code produced by VAX BASIC could be linked with object code produced by any of the other VMS languages. Source code for BASIC Plus 2 would usually run without major changes on VAX BASIC.
When DEC created their Alpha microprocessor, VMS was ported to it and renamed OpenVMS. VAX BASIC was likewise ported to Alpha and renamed DEC BASIC. The BASIC interpreter was permanently dropped at this point, which meant that DEC BASIC programs could only be run as OpenVMS executables, produced by a compile followed by a link.
Compaq and HP
When DEC was purchased by Compaq in 1997/98, the products were renamed Compaq BASIC for OpenVMS VAX and Compaq BASIC for OpenVMS Alpha.
Likewise, when Compaq merged with HP in 2001/02, the products were renamed HP BASIC for OpenVMS on VAX and HP BASIC for OpenVMS on AlphaServer. HP has since built new server platforms based upon Intel's Itanium chip, and there is now a HP BASIC for OpenVMS on Integrity as well.
Sample code
Hello, world
10 PRINT "Hello, world!"
20 END
Celsius to Fahrenheit conversion
10 PRINT "Enter a temperature in Celsius "
20 INPUT C
30 PRINT "Temperature in degrees Fahrenheit is "; (C * 1.8) + 32
40 END