Data General Extended BASIC
Data General Extended BASIC, also widely known as Nova Extended BASIC, was a BASIC programming language interpreter for the Data General Nova series minicomputers. It was based on the seminal Dartmouth BASIC, including the Fifth Edition's string variables and powerful MAT
commands for matrix manipulation. In contrast to the compile-and-go Dartmouth BASIC, Extended BASIC was an interpreter.
Developer(s) | Data General |
---|---|
Initial release | 1970 |
Platform | Data General Nova |
Type | BASIC |
License | Commercial proprietary software |
To this, Extended BASIC added substring manipulation using array slicing, which was common on BASICs of the era, found on HP Time-Shared BASIC, Sinclair BASIC, Atari BASIC and others. This contrasts with the Microsoft BASIC style which uses string functions like LEFT$
, and thus makes porting string code somewhat difficult.
Data General later purchased rights to a much-expanded BASIC which was released as Data General Business Basic. This added powerful database functionality and largely replaced Extended BASIC on DG platforms.
Description
Basic math
The internal floating point number format normally used two 16-bit words for a total of 32-bits, stored least significant bit first. Bit 0 was the sign, 1 through 7 was the exponent stored in excess-64 format, and 8 through 31 the mantissa stored as hexadecimal digits.[1] Numbers could alternately used a double-precision format that extended the mantissa only, adding another 32-bits. That meant the double-precision format did not extend the range of numbers that could be stored, only the accuracy of those numbers.[2] Possible numbers ranged from 5.4x10^-79 to -7.2x10^75. Numbers with less than six digits were displayed as decimals, while those with more were displayed in exponent format.[1]
Variable names could consist of a single letter, or a letter and a single digit. Two-letter names were not allowed. Arrays could be DIM
med in 1 (array) or 2 (matrix) dimensions, and the lower bound was always 1.[2] As was common at the time, variables with no DIM
defaulted to a 1-D array of 10 elements. Confusingly, if a variable was DIM
ed, it was not the same as a variable with the same name that had not been DIM
ed; A(1)
and A
might be the same or different variables depending on how they were created.[3]
Mathematics operators were the standard set, with the addition of a unary plus.[3] Relational operators for comparisons were also the standard set, there was no #
for not-equals as found in some contemporary BASICs.[3]
Matrix math
Extended BASIC added the suite of matrix math operations from Dartmouth BASIC's Fifth Edition. These were, in essence, macros that performed operations that would otherwise be accomplished with FOR...NEXT
loops.[4]
The system included a number of pre-rolled matrixes, like ZER
for a zero-matrix, CON
for a matrix of all 1's, IDN
for the identity matrix. Most mathematical operations were supported, for instance, MAT A=A*2
multiplies every element in A by 2. MAT A=DET A
takes the determinant, and MAT A=INV(A)
inverts it.[4]
Strings
String literals (constants) were entered between double-quotes. Characters within strings could be escaped by placing their ASCII value between angle-brakets, for instance, "This prints a quote, <34>."
String variables, like their numeric counterparts, consisted of only a single letter, or one letter and one digit.[5]
As is the case for all variables in Extended BASIC, string variables were normally allocated ten spaces, but could be extended up to a maximum of 32 k with an explicit DIM
. Because the array syntax was used to declare the length of the string, string arrays were not possible. Assigning a string to a variable that was too small too hold it resulted in any excess being truncated.[6]
String manipulation was carried out using array slicing syntax. A$(10)
referred to the substring from position 10 to the end of the string, while A$(10,20)
referred to characters 10 through 20. Concatenation used the comma, so A$=A$,B$
added B$ to the end of A$.[7] This was an uncommon syntax, even when it was being introduced, most BASICs using slicing used that for concatenation as well, for instance, A$(LEN(A$))=B$
would append B$ at the end of A$, while those using string functions, like Microsoft BASIC, already widely used the plus sign for this operation.
This syntax change was because Extended BASIC allowed math operators to be applied to strings, up to the first non-numeric character. For instance, A="1234"+"2345"
would put 3579 into A, without the need to explicitly convert them to numerics, normally handled with the VAL
function in most dialects. Non-numerics were simply ignored, A="1234"+"FRED"
put 1234 into A.[8]
Extended BASIC lacked the CHANGE
command from Dartmouth that converted an entire string to or from ASCII values in an array, for instance, CHANGE "HELLOWORLD" TO B
which results in B being assigned 10 numbers, each one an ASCII value.
Statements
Extended BASIC is otherwise similar to Dartmouth and Microsoft BASIC in the variety of commands it supports and their syntax. Exceptions include CON
instead of CONT
, DELAY
instead of PAUSE
(which was not common anyway). Two additions were ON ERR THEN...
which allowed errors to be trapped, a feature that became common on other BASICs, and ON ESC THEN...
which allowed the break key (escape in this case) to be trapped as well.[9] RETRY
was similar to CON
, but allowed a single line to be re-run after a break, instead of continuing the entire program.[10] TIME
set the time limit for TINPUT
statements to respond, which was a "timed input" otherwise identical to INPUT
.[11]
Extended BASIC added a variety of immediate mode editing statements that are not really part of the language per se. These included ERASE
to remove a range of lines from a program, ENTER
to read the contents of a text file into the program, and RENUMBER
.[12] CARDS
was similar to ENTER
, but read the lines from the card reader.
It also added a number of statements for dealing with the underlying file system, including FILE
which lists files in the user's directory and LIBRARY
which does the same with wildcards, GDIR
which printed the name of that directory, LOAD
and SAVE
for the program code, RENAME
and DELETE
, and DISK
, which printed the free space. PUNCH
was like SAVE
, but sent the file to th card punch. WHATS
printed the attributes of a given file.[13]
Other operating system-related statements included WHO
to print a list of logged-in users, MSG
to bother them, PAGE
to set the right margin (page width), and SIZE
to print the memory used by the program, the opposite of what would be returned in MS BASIC with FRE()
.[14]
Functions
Functions closely matched Dartmouth and Microsoft BASIC, with a few additions. CPU()
returned an numeric value encoding the positions of the front-panel switches.[15] EOF(x)
returned whether or not file x had reached the end-of-file. POS(X$,Y$,Z)
returned the position of B$ within A$, anywhere after the optional position Z, similar to the MS-standard INSTR
.[16] Note that this overrides the POS
found in MS, which returns the current column position of the cursor.
References
Citations
- Manual 1978, p. 2.1.
- Manual 1978, p. 2.2.
- Manual 1978, p. 2.3.
- Manual 1978, Chapter 5.
- Manual 1978, p. 2.4.
- Manual 1978, p. 2.5.
- Manual 1978, p. 2.6.
- Manual 1978, p. 2.7.
- Manual 1978, p. 3.26.
- Manual 1978, p. 3.43.
- Manual 1978, p. 3.48.
- Manual 1978, p. 3.42.
- Manual 1978, p. 3.50.
- Manual 1978, p. 3.46.
- Manual 1978, p. 4.3.
- Manual 1978, p. 4.7.
Bibliography
- Extended BASIC User's Manual. Data General. January 1978.