Repost
This is a repost of a basic program for the HP 71B. I received an email from Kenneth who pointed out that line 145 lead to an error. In further testing, this lead to the input routine not working correctly. The following code in today’s repost is a corrected algorithm. Edited lines are in blue (lines 5, 125, and 145).
The original entry, posted on August 29, 2016, will be deactivated.
HP 71B Program: BASIC
The program RPNBASIC puts the HP 71B into RPN mode with arithmetic functions, power, square root, and π. The program contains room for one independent memory and a four level stack that works like the classic Hewlett Packard RPN calculators.
I have the array S set up for six slots:
Slot 1: X stack (display)
Slot 2: Y stack
Slot 3: Z stack
Slot 4: T stack
Slot 5: Independent memory stack
Slot 6: (temporary memory)
For an idea of how RPN works, check out this tutorial: http://edspi31415.blogspot.com/2011/09/rpn-basics.html
As a note, this program requires you to press the equals key [ = ] before you enter a number to the stack.
Example: 2 + 3 + 9 = 14
Keys:
[ = ], 2, [END LINE]
[ = ], 3, [END LINE], [ + ],
[ = ], 9, [END LINE], [ + ]
The keys available during RPNBASIC:
[ = ] Input
[ + ] Add: Y + X
[ - ] Subtract: Y - X
[ * ] Multiplication: Y * X
[ / ] Divide: Y/X
[ g ] [ / ] (^) Exponent: Y^X
[ Q ] Square Root √X
[ P ] Enter π to the stack
[ M ] Store X in independent memory
[ R ] Recall memory
[ C ] Clear X stack to 0
Stack operations:
[ S ] Swap with X and Y
[ D ] Roll stack down, result { Y, T, Z, X }
Exit the program: press [ E ]
HP 71B Program: RPNBASIC (828 bytes)
5 ! SIMPLE RPN, EWS 5/12/2024
10 DESTROY S, K$
15 DIM K$, S(6)
20 OPTION BASE 1
25 DISP "RPN BASIC" @ WAIT 1
30 DELAY 0,0
35 DISP S(1)
40 K$=KEY$
50 IF K$="+" THEN S(6)=S(1)+S(2) @ GOTO 100
52 IF K$="-" THEN S(6)=S(2)-S(1) @ GOTO 100
54 IF K$="*" THEN S(6)=S(1)*S(2) @ GOTO 100
56 IF K$="/" THEN S(6)=S(2)/S(1) @ GOTO 100
58 IF K$="=" THEN 140
60 IF K$="M" THEN S(5)=S(1) @ GOTO 35
62 IF K$="R" THEN S(6)=S(5) @ GOTO 120
64 IF K$="P" THEN S(6)=PI @ GOTO 120
66 IF K$="C" THEN S(1)=0 @ GOTO 35
68 IF K$="S" THEN 160
70 IF K$="D" THEN 180
72 IF K$="Q" THEN S(1)=SQR(S(1)) @ GOTO 35
74 IF K$="^" THEN S(6)=S(2)^S(1) @ GOTO 100
76 IF K$="E" THEN 200 ELSE 40
100 ! 2 STACK OPERATION
105 S(1)=S(6) @ S(2)=S(3) @ S(3)=S(4)
110 GOTO 35
120 ! PI/RCL/INPUT
125 S(4)=S(3) @ S(3)=S(2) @ S(2)=S(1) @ S(1)=S(6)
130 GOTO 35
140 ! INPUT NUMBER
145 INPUT "NUMBER:";S(6)
150 GOTO 120
160 ! SWAP
165 S(6)=S(1) @ S(1)=S(2) @ S(2)=S(6)
170 GOTO 35
180 ! ROLL
185 S(6)=S(1)
190 S(1)=S(2) @ S(2)=S(3) @ S(3)=S(4) @ S(4)=S(6)
195 GOTO 35
200 STOP
Examples:
Remember the order of operations!
Example 1:
22.5 - 12.3 * 3.3 = -18.09
[ = ], 12.3, [ END LINE ],
[ = ], 3.3, [ END LINE ], [ * ],
[ = ] 22.5, [ END LINE ], [ S ], [ - ]
Example 2: (5^2 + 1.4^3)/2 = 13.872
[ = ], 5, [ END LINE ], [ = ], 2, [ END LINE ], [ g ], [ / ] (^)
[ = ], 1.4, [ END LINE ], [ = ], 3, [ END LINE ], [ g ], [ / ] (^), [ + ]
[ = ], 2, [ END LINE ], [ / ]
Example 3: π * 3.12^2 + (3.12 * 1.99) = 36.7903195271
Store 3.12 in memory.
[ = ], 3.12, [ END LINE ], [ M ],
[ = ], 2 , [ END LINE ], [ g ], [ / ] (^),
[ P ], [ * ],
[ R ], [ = ], 1.99, [ END LINE ], [ * ], [ + ]
Enjoy!
Note: this program can be expanded to include additional functions and calculations.
All original content copyright, © 2011-2024. Edward Shore. Unauthorized use and/or unauthorized distribution for commercial purposes without express and written permission from the author is strictly prohibited. This blog entry may be distributed for noncommercial purposes, provided that full credit is given to the author.