Dartmouth Oversimplified Programming Experiment
DOPE, short for Dartmouth Oversimplified Programming Experiment, was a simple programming language designed by John Kemény in 1962 to offer students a transition from flow-charting to programming the LGP-30. Lessons learned from implementing DOPE were subsequently applied to the invention and development of BASIC.[1]
Paradigms | procedural |
---|---|
Designed by | John G. Kemeny |
Developer | Sidney Marshall |
First appeared | 1962 |
Implementation language | Assembly |
Platform | LGP-30 |
Influenced by | |
DARSIMCO, DART, Dartmouth ALGOL 30, Fortran | |
Influenced | |
Dartmouth BASIC |
Description
editEach statement was designed to correspond to a flowchart operation and consisted of a numeric line number, an operation, and the required operands:
7 + A B C 10 SIN X Z
The final variable specified the destination for the computation. The above program corresponds in functionality to the later BASIC program:
7 LET C=A+B
10 LET Z=SIN(X)
DOPE might be the first programming language to require every statement to have a line number, predating JOSS and BASIC.
The language was case insensitive.
Variable names were a single letter A to Z, or a letter followed by a digit (A0 to Z9). As with Fortran, different letters represented different variable types. Variables starting with letters A to D were floating point, as were variables from I to Z; variables E, F, G, and H each were defined as vectors with components from 1 to 16.
Operation | Function | Number of operands |
---|---|---|
A | Ask (prompt for input) | 2 |
C | Arithmetic IF | 4 |
E | End loop | (Unknown) |
J | Input into variable | 1 |
N | Print a newline | (Unknown) |
P | Print a variable | 1 |
T | Jump | 1 |
Z | For loop | (Unknown) |
+ | Addition | 3 |
- | Subtraction | 3 |
* | Multiplication | 3 |
/ | Division | 3 |
EXP | E to the power | 2 |
LOG | Logarithm | 2 |
SIN | Sine | 2 |
SQR | Square root | 2 |
The language was used by only one freshman computing class.[2] Kemeny collaborated with high school student Sidney Marshall (taking freshman calculus) to develop the language.[3][4]
Legacy
editAccording to Thomas Kurtz, a co-inventor of BASIC, "Though not a success in itself, DOPE presaged BASIC. DOPE provided default vectors, default printing formats, and general input formats. Line numbers doubled as jump targets."
The language had a number of other features and innovations that were carried over into BASIC:
- Variable names were either a letter or a letter followed by a digit
- Arrays (vectors) did not have to be declared and had a default size (16 instead of 10)
- Every line required a numeric label*
- Lines were sorted in numeric order*
- Every line begins with a keyword*
- Function names were three letters long*
- The only loop construct was a for-loop
See also
edit- DARSIMCO, 'Dartmouth Simplified Code', a 1956 assembler macro language
- Dartmouth ALGOL 30, a compiler developed by Dartmouth for the LGP-30
References
edit- ^ Kurtz, Thomas (1981). "BASIC". History of programming languages. History of programming languages I. ACM. pp. 517-518 517–518. doi:10.1145/800025.1198404. ISBN 0-12-745040-8.
- ^ Williams, Michael (November 1, 1985). A History of Computing Technology (1st ed.). Prentice-Hall. p. 432. ISBN 0133899179.
- ^ Application to the National Science Foundation, Kurtz, Rieser, and Meck, cited in Rankin, pages 20-21
- ^ Kemeny, John G.; Kurtz, Thomas E. (1985). Back To BASIC: The History, Corruption, and Future of the Language. Addison-Wesley Publishing Company, Inc. 141 pp. ISBN 0-201-13433-0