Logical operations: Difference between revisions
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Printf.printf "a or b is %B\n" (a || b); |
Printf.printf "a or b is %B\n" (a || b); |
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Printf.printf "not a is %B\n" (not a) |
Printf.printf "not a is %B\n" (not a) |
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=={{header|Pascal}}== |
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<pascal> |
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procedure printlogic(a, b: boolean); |
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begin |
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writeln('a and b is ', a and b); |
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writeln('a or b is ', a or b); |
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writeln('not a is', not a); |
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end; |
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</pascal> |
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=={{header|Perl}}== |
=={{header|Perl}}== |
Revision as of 19:18, 18 April 2008
You are encouraged to solve this task according to the task description, using any language you may know.
Basic Data Operation
This is a basic data operation. It represents a fundamental action on a basic data type.
You may see other such operations in the Basic Data Operations category, or:
Integer Operations
Arithmetic |
Comparison
Boolean Operations
Bitwise |
Logical
String Operations
Concatenation |
Interpolation |
Comparison |
Matching
Memory Operations
Pointers & references |
Addresses
Write a function that takes two logical (boolean) values, and outputs the result of "and" and "or" on both arguments as well as "not" on the first arguments. If the programming language doesn't provide a separate type for logical values, use the type most commonly used for that purpose.
Ada
I have also included logical xor because it is defined for Ada boolean types. All the operators below work equally well on arrays of boolean types. In fact, a packed array of boolean is an array of bits, providing a direct link between logical and bitwise operations.
procedure Print_Logic(A : Boolean; B : Boolean) is begin Put_Line("A and B is " & Boolean'Image(A and B)); Put_Line("A or B is " & Boolean'Image(A or B)); Put_Line("A xor B is " & Boolean'Image(A xor B)); Put_Line("not A is " & Boolean'Image(not A)); end Print_Logic;
ALGOL 68
PROC print_logic = (BOOL a,b)VOID: ( # for a ASCII 7 bit/byte compiler # printf(($"a and b is "gl$, a AND b); printf(($"a or b is "gl$, a OR b); printf(($"not a is "gl$, NOT a); ¢ for a European 8 bit/byte compiler ¢ printf(($"a and b is "gl$, a ∧ b); printf(($"a or b is "gl$, a ∨ b); printf(($"not a is "gl$, ¬ a) )
BASIC
SUB logic (a%, b%) 'no booleans in BASIC...these are integers. 1 for true 0 for false. PRINT a AND b PRINT a OR b PRINT NOT a END SUB
C
void print_logic(int a, int b) { printf("a and b is %d\n", a && b); printf("a or b is %d\n", a || b); printf("not a is %d\n", !a); }
C++
void print_logic(bool a, bool b) { std::cout << std::boolalpha; // so that bools are written as "true" and "false" std::cout << "a and b is " << (a && b) << "\n"; std::cout << "a or b is " << (a || b) << "\n"; std::cout << "not a is " << (!a) << "\n"; }
D
module andOr ; import std.stdio ; void logic(T,U)(T lhs, U rhs){ writefln("'%s' is of type '%s', '%s' is of type '%s';", lhs,typeid(typeof(lhs)), rhs,typeid(typeof(rhs))) ; writefln("\t'%s' AND '%s' is %s, ", lhs, rhs, lhs && rhs) ; writefln("\t'%s' OR '%s' is %s, ", lhs, rhs, lhs || rhs) ; writefln("\tNOT '%s' is %s.\n", lhs, !lhs) ; } class C {int value ; } void main() { bool theTruth = true ; bool theLie = false ; real zeroReal = 0.0L ; real NaN ; // D init. float type to NaN ; int zeroInt = 0 ; real[] nullArr = null ; string emptyStr = "" ; string nullStr = null ; C someC = new C ; C nullC = null ; //Note: Struct is value type in D, but composite so no default bool equivalent logic(theTruth, theLie) ; logic(zeroReal, NaN) ; logic(zeroInt, nullArr) ; logic(nullStr, emptyStr) ; logic(someC, nullC) ; }
Forth
Forth can use bitwise operators if the boolean values are well formed: TRUE (-1) and FALSE (0). 0<> converts an ill-formed flag (zero/non-zero) to a well-formed flag (false/true).
: .bool ( ? -- ) if ." true" else ." false" then ; : logic ( a b -- ) 0<> swap 0<> swap cr ." a = " over .bool ." b = " dup .bool cr ." a and b = " 2dup and .bool cr ." a or b = " over or .bool cr ." not a = " 0= .bool ;
Fortran
SUBROUTINE PRNLOG(A, B) LOGICAL A, B PRINT *, 'a and b is ', A .AND. B PRINT *, 'a or b is ', A .OR. B PRINT *, 'not a is ', .NOT. A END
Haskell
Instead of a function and printing, which is unidiomatic for Haskell, here are the operations in the same style as in Bitwise operations:
a = False b = True a_and_b = a && b a_or_b = a || b not_a = not a
J
J uses 0 for logical false and 1 for logical true.
aon=: *. , +. , -.@[
The verb defined above is unidiomatic in that when arrays are provided as arguments the results don't seem useful. Definition as seen in the Haskell example would be more natural.
Additional primary logical operators are *:
(not-and), +:
(not-or), ~:
(exclusive-or).
An example more closely following the others on this page (J is interactive so indented lines are user-entered and lines flush left are system outputs):
and=: *. or=: +. not=: -. a=. 0 0 1 1 NB. Work on vectors to show all possible b=. 0 1 0 1 NB. 2-bit combos at once. (a and b),(a or b),:not a 0 0 0 1 0 1 1 1 1 1 0 0
Java
public static void logic(boolean a, boolean b){ System.out.println("a AND b: " + (a && b)); System.out.println("a OR b: " + (a || b)); System.out.println("NOT a: " + (!a)); }
Additionally, ^ is used for XOR and == is used for "equal to" (a.k.a. bidirectional implication).
JavaScript
function logic(a,b) { print("a AND b: " + (a && b)); print("a OR b: " + (a || b)); print("NOT a: " + (!a)); }
Logo
to logic :a :b (print [a AND b =] and :a :b) (print [a OR b =] or :a :b) (print [NOT a =] not :a) end
And and or may have arity greater than two if used in parentheses (and :a :b :c).
MAXScript
fn printLogic a b = ( format "a and b is %\n" (a and b) format "a or b is %\n" (a or b) format "not a is %\n" (not a) )
OCaml
let print_logic a b = Printf.printf "a and b is %B\n" (a && b); Printf.printf "a or b is %B\n" (a || b); Printf.printf "not a is %B\n" (not a)
Pascal
<pascal> procedure printlogic(a, b: boolean);
begin writeln('a and b is ', a and b); writeln('a or b is ', a or b); writeln('not a is', not a); end;
</pascal>
Perl
sub print_logic { my ($a, $b)=@_; print "a and b is ${\($a && $b)}\n"; print "a or b is ${\($a || $b)}\n"; print "not a is ${\( ! $a)}\n"; }
Python
def logic(a, b): print 'a and b: ' + str(a and b) print 'a or b: ' + str(a or b) print 'not a: ' + str(not a)
Toka
This is an adaption of the code from the Forth example. Toka provides TRUE/FALSE flags that are the same as the well-formed flags in Forth.
[ 0 <> [ ." true" ] [ ." false"] ifTrueFalse ] is .bool [ ( a b -- ) cr ." a = " over .bool ." b = " dup .bool cr ." a and b = " 2dup and .bool cr ." a or b = " over or .bool cr ." not a = " 0 = .bool ] is logic