gpc
Implementation of programming language Pascalgpc is the short nickname for GNU Pascal Compiler, which is included in GNU Compiler Collection.
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Links:
Examples:
Factorial:
Example for versions Free Pascal 2.0.4, Free Pascal 2.2.0, Turbo Pascal 1.0, Turbo Pascal 2.0, Turbo Pascal 3.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, Turbo Pascal 7.0, gpc 20070904This example is exactly the same as main recursive example for Pascal implementations, except for that it uses real
data type to store factorial values. Command writeln(f:-1:0)
outputs the floating point number f
with 0 digits after decimal point and left-justifies it.
program factorial;
function fact(n: integer): real;
begin
if (n = 0) then
fact := 1
else
fact := n * fact(n - 1);
end;
var
n: integer;
begin
for n := 0 to 16 do
writeln(n, '! = ', fact(n):-1:0);
end.
Hello, World!:
Example for versions Free Pascal 2.0.4, Free Pascal 2.2.0, Turbo Pascal 1.0, Turbo Pascal 2.0, Turbo Pascal 3.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, Turbo Pascal 7.0, gpc 20070904program helloworld;
begin
writeln('Hello, World!');
end.
Fibonacci numbers:
Example for versions Free Pascal 2.0.4, Free Pascal 2.2.0, Turbo Pascal 1.0, Turbo Pascal 2.0, Turbo Pascal 3.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, Turbo Pascal 7.0, gpc 20070904This example uses recursive definition of Fibonacci numbers.
program fibonacci;
function fib(n:integer): integer;
begin
if (n <= 2) then
fib := 1
else
fib := fib(n-1) + fib(n-2);
end;
var
i:integer;
begin
for i := 1 to 16 do
write(fib(i), ', ');
writeln('...');
end.
Quadratic equation:
Example for versions Free Pascal 2.0.4, Free Pascal 2.2.0, Turbo Pascal 1.0, Turbo Pascal 2.0, Turbo Pascal 3.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 6.0, gpc 20070904Pascal has built-in complex data type complex
, but using it is inconvenient in this case, because writeln
can’t output complex numbers directly, and functions Re
and Im
would have to be used. In this example calculations are done in real numbers. Library function halt
(added in Extended Pascal) exits current block (in later versions it is replaced with exit
).
program Quadratic;
var
A,B,C,D: integer;
begin
write('A = ');
readln(A);
if (A=0) then
begin
writeln('Not a quadratic equation.');
halt;
end;
write('B = ');
readln(B);
write('C = ');
readln(C);
D := B*B-4*A*C;
if (D=0) then
begin
writeln('x = ',-B/2.0/A);
halt;
end;
if (D>0) then
begin
writeln('x1 = ',(-B+Sqrt(D))/2.0/A);
writeln('x2 = ',(-B-Sqrt(D))/2.0/A);
end
else
begin
writeln('x1 = (',-B/2.0/A,',',Sqrt(-D)/2.0/A,')');
writeln('x2 = (',-B/2.0/A,',',-Sqrt(-D)/2.0/A,')');
end;
end.
Factorial:
Example for versions Free Pascal 2.0.4, Free Pascal 2.2.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, Turbo Pascal 7.0, gpc 20070904This example uses recursive factorial definition.
Note that this example works in all given implementations of Pascal, but it produces slightly different results. In gpc everything works perfectly. Turbo Pascal and Free Pascal have arithmetic overflow for factorial of numbers greater than 12, but Free Pascal reports an error:
13! = Runtime error 215 at $004013C7
$004013C7
$00401449
$004063E0
while Turbo Pascal doesn’t detect the error and simply prints wrong values:
13! = 1932053504
14! = 1278945280
15! = 2004310016
16! = 2004189184
This example doesn’t work in Turbo Pascal 3.0 and earlier due to absence of longint
data type in these versions.
In GNU Pascal this program works without any problems.
program factorial;
function fact(n: integer): longint;
begin
if (n = 0) then
fact := 1
else
fact := n * fact(n - 1);
end;
var
n: integer;
begin
for n := 0 to 16 do
writeln(n, '! = ', fact(n));
end.
CamelCase:
Example for versions Free Pascal 2.2.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, gpc 20070904This example processes the string char by char, and works with ASCII-codes to figure out whether they are lower- or uppercase letters. ord
returns ASCII-code of a character, while chr
converts given ASCII-code into a character. String capacity is omitted and thus set to 255 by default.
Note that in Turbo Pascal series this program works only with Turbo Pascal 4.0 and higher due to the fact that earlier versions didn’t have char
datatype.
program Camelcase;
var
text, cc: string;
c: char;
i: integer;
lastSpace: boolean;
begin
readln(text);
lastSpace := true;
cc := '';
for i := 1 to Length(text) do
begin
c := text[i];
if ((c >= #65) and (c <= #90)) or ((c >= #97) and (c <= #122)) then
begin
if (lastSpace) then
begin
if ((c >= #97) and (c <= #122)) then
c := chr(ord(c) - 32);
end
else
if ((c >= #65) and (c <= #90)) then
c := chr(ord(c) + 32);
cc := cc + c;
lastSpace := false;
end
else
lastSpace := true;
end;
writeln(cc);
end.
CamelCase:
Example for versions Free Pascal 2.2.0, Turbo Pascal 4.0, Turbo Pascal 5.0, Turbo Pascal 5.5, Turbo Pascal 6.0, gpc 20070904This example is similar to previous one, but uses sets of characters for letter check. This makes the code more readable.
Note that in Turbo Pascal series this program works only with Turbo Pascal 4.0 and higher due to the fact that earlier versions didn’t have char
datatype.
program Camelcase;
var
text, cc: string[100];
c: char;
i: integer;
lastSpace: boolean;
upper, lower: set of char;
begin
upper := ['A'..'Z'];
lower := ['a'..'z'];
readln(text);
lastSpace := true;
cc := '';
for i := 1 to Length(text) do
begin
c := text[i];
if (c in lower) or (c in upper) then
begin
if (lastSpace) then { convert to uppercase }
begin
if (c in lower) then
c := chr(ord(c) - 32);
end
else { convert to lowercase }
if (c in upper) then
c := chr(ord(c) + 32);
cc := cc + c;
lastSpace := false;
end
else
lastSpace := true;
end;
writeln(cc);
end.
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