SCELBAL


SCELBAL, short for SCientific ELementary BAsic Language, is a version of the BASIC programming language released in 1976 for the SCELBI and other early Intel 8008 and 8080-based microcomputers like the Mark-8. Later add-ons to the language included an exteneded math package and string handling. The original version required 8 kB of RAM, while the additions demanded 16 kB.
The language was published in book form, with introductory sections followed by flowcharts and then the 8008 assembler code. The book described ways to save more memory, turning off arrays for instance, and how to add new features by the user.

History

The primary author of SCELBAL is Mark Arnold, who was a high-school student in 1974 when the SCELBI was announced. Arnold was friends with professors at the University of Wyoming, and through them had arranged to have an account on their Sigma 7 mainframe computer. The first version of what became SCELBAL was written for this machine. Later that year, he wrote an 8008 cross compiler on that platform.
Arnold entered UW in 1975 and contacted Nat Wadsworth, one of the founders of SCELBI, pitching the idea of a compiled version of BASIC for their new platform. This would be a multi-pass system that would save the intermediate versions on cassette tape. This would be very tedious to use but would produce programs that would run on the 4 kB 8H models of the system. Wadsworth favored an interpreter, which would require 8 kB, which would be available on the new 8B models of the system. The language used floating point routines published by Wadsworth in 1975 in '.
It took Wadsworth several months to finally arrange a contract, which included sending Arnold an 8B development system. This significantly delayed the release of the language into 1976. Arnold speculated that, lacking these delays, SCELBAL could have been released at about the same time as Altair BASIC in late 1975. It was first presented in a lengthy article in the second issue of Dr. Dobb's Journal in February 1976.
The release of SCLEBAL was announced in an advertisement in ''Byte
s June 1976 issue. The ad did not specifically link the language to the SCELBI platform, instead, it simply offered itself in book form as a complete source listing to create a version of BASIC on any 8008 or 8080 system with the requisite 8 kB of RAM. The book's price was $49, about $ in.

Description

SCELBAL used a 32-bit floating point format for numeric calculations, with a 23-bit mantissa, 1-bit sign for the mantissa, a 7-bit exponent, and 1-bit sign for the exponent. These were organized in reverse order, with the least significant byte of the mantissa in the first byte, followed by the middle and then most significant byte with the sign in the high bit. The exponent came last, again with the sign in the high bit. The manual provides well-documented assembly code for the entire math package, including entry points and usage notes. 32-bit formats were common in this era, while later versions of BASIC, starting with Microsoft BASIC for the MOS 6502, generally adopted a 40-bit format for added precision.
SCELBAL was otherwise similar to other BASIC dialects, including early MS versions like Altair BASIC, lacking string variables and operators and a number of mathematic functions. Other differences were less pronounced. The statement had an optional form that removed the need for,. It also retained the MS-style short form for the same concept,. SCELBAL also allowed the use of variables for lines, allowing you to, for instance,, which would jump to the line number in variable LL.
The base language did not support string handling, although literal strings could be used in, and had the supporting functions of to print non-printable characters, and to provide layout. Oddly, the system required ASCII codes to have the high-bit set, so to convert from normal ASCII to SCELBI character codes, one had to add or subtract 127. For instance, to produce the string "HELLO, WORLD" in the output.
would normally read the user-entered text as a number, but allowed the dollar sign to indicate the value should be read as the SCELBI code instead. For instance, would read the user input "1" into A as the floating-point value 1, while would result in A being set to 176, 49 + 127. Additionally, when the dollar sign is used, the traditional "?" prompt is not printed, and command returned to the language as soon as a single character is entered, instead of waiting for the carriage return as in the normal case.
Among the few other differences was that the command found in MS, which clears out existing program code and data, is called for "scratch", and the function, which called a machine language routine, was for "user defined function". did not accept an address or parameters, only a single user-defined zero-parameter function at a fixed location was supported.
Error codes were reduced to two letters, and code for and were provided in boilerplate form and expected to be implemented when ported to different platforms. Line numbers could be between 1 and 999999, whereas most BASICs used a 16-bit integer and thus supported lines from 1 to 32767 or 1 to 65535.

Language features

Commands

Immediate-mode only

Referred to as "executive" mode in the documentation.
scratch, equivalent to MS






Immediate or program mode



Like MS, could accept multiple variables,. Did not include a prompt string.

Like MS, the was optional, so and are equivalent.



Alternate form of.

It appears the "spaced version",, was not supported.



As in MS, is optional and assumed to be 1. required a variable, unlike later MS versions.





Arrays worked as in MS, but were optional and could be turned off to save memory. Only single-dimension arrays were supported, and the total number of elements for all arrays combined was 64 numbers.

Functions









As in MS, takes a dummy variable and returns a value between 0 and 1.

Note the lack of the $ found in MS, which uses.


Extensions

SCHELBI published two extensions to the system, the Mathematical Functions Supplement, and the Strings Supplement.

Math Functions Supplement

The Mathematical Functions Supplement added five new transcendental functions,,,,, and.

String Supplement

The String Supplement was somewhat larger than the Math Functions, including a number of new features.
Strings could be up to 80 characters long, and the system could hold a total of 64 string variables. Any one of those 64, or all of them, could be one-dimensional arrays, but the total number still had to be 64 strings in total. Oddly, string arrays did not require a statement.
In contrast to MS BASIC, and the Dartmouth BASIC string handling that inspired it, SCELBI used the "slicing" style of string manipulation found in contemporary BASICs like HP Time-Shared BASIC and Northstar BASIC, or the later Atari BASIC. Instead of using functions like,, to access substrings, the array-access syntax was used with colons separating the starting point and length. As SCELBAL also supported string arrays, the first number in the array accessors was the array index, and was optional if the variable was not an array. So, for instance, the code:
would result in "ELL" being printed to the output. If an array was used the syntax required the array index in the first parameter:
would result in "ORL" being printed to the output.
There is a major difference in the way this works in comparison to the other BASICs that used slicing syntax, in that the last parameter is the length, not a position. For instance, in Atari BASIC the similar-looking code:
Would instead output "EL", as the instruction translates to "print all characters between positions 2 and 3". In this fashion, SCELBAL works in a fashion more similar to MS BASIC, where the equivalent would be:
To add full support for strings, the Supplement replaced the original with, which matched the syntax of its MS counterpart. Likewise, was modified so string variables worked like numeric ones, waiting for the carriage return and then assigning the entire user input to the associated string variable. It also added the support functions and, and to convert a string containing a numeric value to a string representation of that number. As in MS, concatenation used the operator.

Citations