:= := function := function int := function int := function int sum_of_first_n_squares := function int sum_of_first_n_squares ( := function int sum_of_first_n_squares ( := function int sum_of_first_n_squares ( int := function int sum_of_first_n_squares ( int n := function int sum_of_first_n_squares ( int n ) := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { := function int sum_of_first_n_squares ( int n ) { int := function int sum_of_first_n_squares ( int n ) { int := function int sum_of_first_n_squares ( int n ) { int sum := function int sum_of_first_n_squares ( int n ) { int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main void := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , sum := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , sum ) := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , sum ) ; := function int sum_of_first_n_squares ( int n ) { int sum ; sum = 0 ; if ( n >= 1 ) { sum = n * ( n + 1 ) * ( 2 * n + 1 ) / 6 ; } return sum ; } procedure main ( void ) { int n ; int sum ; n = 100 ; sum = sum_of_first_n_squares ( n ) ; printf ( " sum of the squares of the first %d numbers = %d\n " , n , sum ) ; }