**HP Prime: Feet-Inches Calculator**

**Calculate in Feet-Inches**

The program FTIN is an arithmetic calculator that calculates
in feet-inches and square feet.

At the start of the program, you will be asked to set an
accuracy setting for fractions of inches.
The options available are 1/2, 1/4, 1/8, 1/16, 1/32, and 1/64. You can change accuracy settings at any time.

Then you will be asked to enter a measurement either in feet-inches
(linear) or square feet (area). In feet-inches entry mode, you will enter the
feet, whole inches, and fractional components of inches separately (see screen
shot below).

When the main menu appears, your current result appears in the
title screen of the choose box.

There are eight operations included in FTIN:

1. Add ft-in: Adds a
measurement in feet-inch to the displayed value

2. Subtract ft-in:
Subtracts a measurement in feet-inch from the displayed value

3. Multiply by scalar:
Multiplies measurement by a scalar.
Use this to find the total multiple of a feet-inch measurement.

4. Divide by scalar:
Works similarly to option 3.

5. Multiply to area:
Multiplies two lengths in feet-inch to obtain an area in square
feet.

6. Divide from area: Divides
an area by a length in feet-inch

7. Square Root from area:
Takes the positive square root of a square area. It’s good for a finding a length of a square
given its area.

8. Change accuracy settings:
Change the accuracy settings for fraction of an inch.

Option 9 is to exit the program.

**HP Prime Program FTIN**

sub1();

sub2();

EXPORT FTIN()

BEGIN

// 2018-06-21 EWS

// initialization

LOCAL fx,fy,fz,ch;

LOCAL lx,ly,lz,Y,S;

LOCAL aflag,str,dh;

INPUT({{Y,

{2,4,8,16,32,64}}},

"ACCURACY
DESIRED","/");

Y:=2^Y;

// initial entry

CHOOSE(dh,"Initial Units",

{"ft-in","ft^2"});

IF dh==1 THEN

fx:=sub1();

fz:=fx;

aflag:=0;

ELSE

INPUT(fx,"Enter
Area","ft^2:");

fz:=fx;

aflag:=1;

END;

WHILE ch≠9 DO

fx:=fz;

// string for fz

IF aflag==0 THEN

lx:=sub2(fx,Y);

str:=STRING(lx(1))+" ft "+

STRING(lx(2))+" "+

STRING(lx(3))+" in";

ELSE

str:=STRING(fx)+" ft^2";

END;

CHOOSE(ch,str,

{"Add ft-in",

"Subtract ft-in",

"Multiply by scalar",

"Divide by scalar",

"Multiply to area",

"Divide from area",

"Square Root from area",

"Change accuracy settings",

"Quit"});

// add ft-in

IF ch==1 THEN

fy:=sub1();

fz:=fx+fy;

lx:=sub2(fx,Y);

ly:=sub2(fy,Y);

lz:=sub2(fz,Y);

PRINT();

PRINT(lx(1)+" ft "+lx(2)+

" "+lx(3)+"
in");

PRINT("+");

PRINT(ly(1)+" ft "+ly(2)+

" "+ly(3)+"
in");

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// subtract ft-in

IF ch==2 THEN

fy:=sub1();

fz:=fx-fy;

lx:=sub2(fx,Y);

ly:=sub2(fy,Y);

lz:=sub2(fz,Y);

PRINT();

PRINT(lx(1)+" ft "+lx(2)+

" "+lx(3)+"
in");

PRINT("-");

PRINT(ly(1)+" ft "+ly(2)+

" "+ly(3)+"
in");

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// multiply by scalar

IF ch==3 THEN

INPUT(S,"Enter Scalar");

fz:=fx*S;

lx:=sub2(fx,Y);

lz:=sub2(fz,Y);

PRINT();

PRINT(lx(1)+" ft "+lx(2)+

" "+lx(3)+"
in");

PRINT("*");

PRINT(S);

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// divide by scalar

IF ch==4 THEN

INPUT(S,"Enter Scalar");

fz:=fx/S;

lx:=sub2(fx,Y);

lz:=sub2(fz,Y);

PRINT();

PRINT(lx(1)+" ft "+lx(2)+

" "+lx(3)+"
in");

PRINT("/");

PRINT(S);

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// multiply to area

IF ch==5 THEN

fy:=sub1();

fz:=fx*fy;

fz:=ROUND(fz,6);

lx:=sub2(fx,Y);

ly:=sub2(fy,Y);

aflag:=1;

PRINT();

PRINT(lx(1)+" ft "+lx(2)+

" "+lx(3)+"
in");

PRINT("*");

PRINT(ly(1)+" ft "+ly(2)+

" "+ly(3)+"
in");

PRINT("=");

PRINT(fz+" ft^2");

WAIT(0);

END;

// divide from area

IF ch==6 THEN

fy:=sub1();

fz:=fx/fy;

ly:=sub2(fy,Y);

lz:=sub2(fz,Y);

aflag:=0;

PRINT();

PRINT(fx+" ft^2");

PRINT("/");

PRINT(ly(1)+" ft "+ly(2)+

" "+ly(3)+"
in");

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// square root from area

IF ch==7 THEN

fz:=√(fx);

lz:=sub2(fz,Y);

aflag:=0;

PRINT();

PRINT("√"+fx+"
ft^2");

PRINT("=");

PRINT(lz(1)+" ft "+lz(2)+

" "+lz(3)+"
in");

WAIT(0);

END;

// change accruacy settings

IF ch==8 THEN

INPUT({{Y,

{2,4,8,16,32,64}}},

"ACCURACY
DESIRED","/");

Y:=2^Y;

END;

END;

END;

// feet-inch-fraction entry

sub1()

BEGIN

LOCAL f,i,s,n;

INPUT({f,i,s,{n,

{2,4,8,16,32,64}}},

"ENTRY",

{"Feet: ","Inch:
",

"Frac: ","/"});

RETURN f+(i+s/(2^n))/12;

END;

// convert to feet-inch

sub2(x,y)

BEGIN

LOCAL f,i,s,t;

f:=IP(x);

i:=IP(FP(x)*12);

s:=ROUND(FP(FP(x)*12)*y,0);

t:=QPI(s/y);

RETURN {f,i,t};

END;

Eddie

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content copyright, © 2011-2018. Edward
Shore. Unauthorized use and/or
unauthorized distribution for commercial purposes without express and written
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questions.

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