Apply a callback to an array
Apply a callback to an array
You are encouraged to solve this task according to the task description, using any language you may know.
You are encouraged to solve this task according to the task description, using any language you may know.
Apply a callback function to each element of an Array
C++
Compiler: GNU Compiler Collection 4.1.1
Using c-style array
#include <iostream> //cout for printing #include <algorithm> //for_each defined here //create the function (print the square) void print_square(int i) { std::cout << i*i << " "; } int main() { //create the array int ary[]={1,2,3,4,5}; //stl for_each std::for_each(ary,ary+5,print_square); return 0; } //prints 1 4 9 16 25
#include <iostream> //cout for printing #include <algorithm> //for_each defined here #include <vector> //stl vector class //create the function (print the square) void print_square(int i) { std::cout << i*i << " "; } int main() { //create the array std::vector<int> ary; ary.push_back(1); ary.push_back(2); ary.push_back(3); ary.push_back(4); ary.push_back(5); //stl for_each std::for_each(ary.begin(),ary.end(),print_square); return 0; } //prints 1 4 9 16 25
More tricky with binary function
#include <iostream> //cout for printing #include <algorithm> //for_each defined here #include <vector> //stl vector class #include <functional> //bind and ptr_fun //create a binary function (print any two arguments together) template<class type1,class type2> void print_juxtaposed(type1 x, type2 y) { std::cout << x << y; } int main() { //create the array std::vector<int> ary; ary.push_back(1); ary.push_back(2); ary.push_back(3); ary.push_back(4); ary.push_back(5); //stl for_each, using binder and adaptable unary function std::for_each(ary.begin(),ary.end(),std::bind2nd(std::ptr_fun(print_juxtaposed<int,std::string>),"x ")); return 0; } //prints 1x 2x 3x 4x 5x
Python
def square(n): return n * n numbers = [1, 3, 5, 7] squares1 = [square(n) for n in numbers] # list comprehension squares2 = map(square, numbers) # discouraged nowadays squares3 = [n * n for n in numbers] # best - doesn't need a function, anonymous or otherwise
Ruby
#create the array ary = [1,2,3,4,5] #create the function (print the square) def print_square(i) puts i**2 end #ruby ary.each do |i| print_square(i) end # prints 1,4,9,16,25 # Alternatively: [1,2,3,4,5].each { |i| puts i**2 }
C#
Platform: .NET Language Version: 2.0+
using System; static class Program { // Purpose: Apply a callback (or anonymous method) to an Array // Output: Prints the squares of an int array to the console. // Compiler: Visual Studio 2005 // Framework: .net 2 [STAThread] public static void Main() { int[] intArray = { 1, 2, 3, 4, 5 }; // Using a callback, Console.WriteLine("Printing squares using a callback:"); Array.ForEach<int>(intArray, PrintSquare); // or using an anonymous method: Console.WriteLine("Printing squares using an anonymous method:"); Array.ForEach<int> ( intArray, delegate(int value) { Console.WriteLine(value * value); }); } public static void PrintSquare(int value) { Console.WriteLine(value * value); } }
Haskell
Interpreter : GHCi
let square x = x*x let values = [1..10] map square values
PL/SQL
Interpreter : Oracle compiler
set serveroutput on declare type myarray is table of number index by binary_integer; x myarray; i pls_integer; begin -- populate array for i in 1..5 loop x(i) := i; end loop; i :=0;
-- square array loop i := i + 1; begin x(i) := x(i)*x(i); dbms_output.put_line(x(i)); exception when no_data_found then exit; end; end loop;
end; /