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static boolean bit_anagram_check ( long a ) { return ( Integer . bitCount ( ( int ) a ) == ( ULL_SIZE >> 1 ) ) ; }	static boolean bit_anagram_check ( long a ) { return ( Integer . bitCount ( ( int ) a ) == ( ULL_SIZE >> 1 ) ) ; }	(method_declaration (modifiers) type: (boolean_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (return_statement (parenthesized_expression (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (cast_expression type: (integral_type) value: (identifier)))) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))))))))
public static void main ( String [ ] args ) { long a = 4294967295L ; System . out . println ( bit_anagram_check ( a ) ) ; }	public static void main ( String [ ] args ) { long a = 4294967295L ; System . out . println ( bit_anagram_check ( a ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier))))))))
static boolean CheckIfstartsWithOne ( int n , int b ) { int m = ( int ) ( Math . log10 ( n ) / Math . log10 ( 2 ) ) ; for ( int i = 1 ; i <= m ; i ++ ) { if ( n >= ( int ) Math . pow ( b , i ) && n <= 2 * ( int ) Math . pow ( b , i ) - 1 ) return true ; } return false ; }	static boolean CheckIfstartsWithOne ( int n , int b ) { int m = ( int ) ( Math . log10 ( n ) / Math . log10 ( 2 ) ) ; for ( int i = 1 ; i <= m ; i ++ ) { if ( n >= ( int ) Math . pow ( b , i ) && n <= 2 * ( int ) Math . pow ( b , i ) - 1 ) return true ; } return false ; }	(method_declaration (modifiers) type: (boolean_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (cast_expression type: (integral_type) value: (parenthesized_expression (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal)))))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))) right: (binary_expression left: (identifier) right: (binary_expression left: (binary_expression left: (decimal_integer_literal) right: (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))) right: (decimal_integer_literal))))) consequence: (return_statement (true))))) (return_statement (false))))
public static void main ( String args [ ] ) { System . out . println ( CheckIfstartsWithOne ( 6 , 4 ) ? "Yes" : "No" ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 2 ) ? "Yes" : "No" ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 7 ) ? "Yes" : "No" ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 15 ) ? "Yes" : "No" ) ; }	public static void main ( String args [ ] ) { System . out . println ( CheckIfstartsWithOne ( 6 , 4 ) ? " Yes " : " No " ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 2 ) ? " Yes " : " No " ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 7 ) ? " Yes " : " No " ) ; System . out . println ( CheckIfstartsWithOne ( 24 , 15 ) ? " Yes " : " No " ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier) dimensions: (dimensions))) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal) (decimal_integer_literal))) consequence: (string_literal) alternative: (string_literal))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal) (decimal_integer_literal))) consequence: (string_literal) alternative: (string_literal))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal) (decimal_integer_literal))) consequence: (string_literal) alternative: (string_literal))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal) (decimal_integer_literal))) consequence: (string_literal) alternative: (string_literal)))))))
public static void printCubeFree ( int n ) { boolean [ ] cubFree = new boolean [ n + 1 ] ; for ( int i = 0 ; i <= n ; i ++ ) cubFree [ i ] = true ; for ( int i = 2 ; i * i * i <= n ; i ++ ) { if ( cubFree [ i ] ) { for ( int multiple = 1 ; i * i * i * multiple <= n ; multiple ++ ) { cubFree [ i * i * i * multiple ] = false ; } } } for ( int i = 2 ; i <= n ; i ++ ) { if ( cubFree [ i ] == true ) System . out . print ( i + " " ) ; } }	public static void printCubeFree ( int n ) { boolean [ ] cubFree = new boolean [ n + 1 ] ; for ( int i = 0 ; i <= n ; i ++ ) cubFree [ i ] = true ; for ( int i = 2 ; i * i * i <= n ; i ++ ) { if ( cubFree [ i ] ) { for ( int multiple = 1 ; i * i * i * multiple <= n ; multiple ++ ) { cubFree [ i * i * i * multiple ] = false ; } } } for ( int i = 2 ; i <= n ; i ++ ) { if ( cubFree [ i ] == true ) System . out . print ( i + " ▁ " ) ; } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (boolean_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (boolean_type) dimensions: (dimensions_expr (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (true)))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (array_access array: (identifier) index: (identifier))) consequence: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier))) right: (false))))))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (true))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (string_literal))))))))))
public static void main ( String [ ] args ) { printCubeFree ( 20 ) ; }	public static void main ( String [ ] args ) { printCubeFree ( 20 ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (expression_statement (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal))))))
static void minBinary ( int n ) { int [ ] digit = new int [ 10 ] ; int len = 0 ; while ( n > 0 ) { digit [ len ++ ] = n % 10 ; n /= 10 ; } digit = reverse ( digit , 0 , len - 1 ) ; int ans = 0 ; for ( int i = 0 ; i < len ; i ++ ) { ans = Math . max ( ans , digit [ i ] ) ; } System . out . print ( "Minimum Number of binary" + " Strings needed: " + ans + "\n" ) ; for ( int i = 1 ; i <= ans ; i ++ ) { int num = 0 ; for ( int j = 0 ; j < len ; j ++ ) { if ( digit [ j ] > 0 ) { num = num * 10 + 1 ; digit [ j ] -- ; } else { num *= 10 ; } } System . out . print ( num + " " ) ; } }	static void minBinary ( int n ) { int [ ] digit = new int [ 10 ] ; int len = 0 ; while ( n > 0 ) { digit [ len ++ ] = n % 10 ; n /= 10 ; } digit = reverse ( digit , 0 , len - 1 ) ; int ans = 0 ; for ( int i = 0 ; i < len ; i ++ ) { ans = Math . max ( ans , digit [ i ] ) ; } System . out . print ( " Minimum ▁ Number ▁ of ▁ binary " + " ▁ Strings ▁ needed : ▁ " + ans + " \n " ) ; for ( int i = 1 ; i <= ans ; i ++ ) { int num = 0 ; for ( int j = 0 ; j < len ; j ++ ) { if ( digit [ j ] > 0 ) { num = num * 10 + 1 ; digit [ j ] -- ; } else { num *= 10 ; } } System . out . print ( num + " ▁ " ) ; } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (decimal_integer_literal))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) body: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (update_expression (identifier))) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal) (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (array_access array: (identifier) index: (identifier)))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (binary_expression left: (string_literal) right: (string_literal)) right: (identifier)) right: (string_literal))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal)))) (expression_statement (update_expression (array_access array: (identifier) index: (identifier))))) alternative: (block (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (string_literal)))))))))
static int [ ] reverse ( int str [ ] , int start , int end ) { int temp ; while ( start <= end ) { temp = str [ start ] ; str [ start ] = str [ end ] ; str [ end ] = temp ; start ++ ; end -- ; } return str ; }	static int [ ] reverse ( int str [ ] , int start , int end ) { int temp ; while ( start <= end ) { temp = str [ start ] ; str [ start ] = str [ end ] ; str [ end ] = temp ; start ++ ; end -- ; } return str ; }	(method_declaration (modifiers) type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) body: (block (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))) (expression_statement (update_expression (identifier))) (expression_statement (update_expression (identifier))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { int n = 564 ; minBinary ( n ) ; }	public static void main ( String [ ] args ) { int n = 564 ; minBinary ( n ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier))))))
static int find_n ( int [ ] a ) { int j = 0 , k = 0 , s = 0 ; int x = Arrays . stream ( a ) . max ( ) . getAsInt ( ) ; int y = Arrays . stream ( a ) . min ( ) . getAsInt ( ) ; for ( int i : a ) { if ( a [ i ] == x ) { s = i ; break ; } } for ( int i : a ) { if ( i != x && i <= y && i != 0 ) { a [ j ] += 1 ; a [ s ] -= 1 ; x -= 1 ; k += 1 ; j += 1 ; } else if ( i != 0 ) { j += 1 ; } } for ( int i : a ) { if ( a [ i ] != x ) { k = - 1 ; break ; } } return k ; }	static int find_n ( int [ ] a ) { int j = 0 , k = 0 , s = 0 ; int x = Arrays . stream ( a ) . max ( ) . getAsInt ( ) ; int y = Arrays . stream ( a ) . min ( ) . getAsInt ( ) ; for ( int i : a ) { if ( a [ i ] == x ) { s = i ; break ; } } for ( int i : a ) { if ( i != x && i <= y && i != 0 ) { a [ j ] += 1 ; a [ s ] -= 1 ; x -= 1 ; k += 1 ; j += 1 ; } else if ( i != 0 ) { j += 1 ; } } for ( int i : a ) { if ( a [ i ] != x ) { k = - 1 ; break ; } } return k ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (method_invocation object: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) name: (identifier) arguments: (argument_list)) name: (identifier) arguments: (argument_list)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (method_invocation object: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) name: (identifier) arguments: (argument_list)) name: (identifier) arguments: (argument_list)))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (identifier))) (break_statement))))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (identifier) right: (identifier))) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal)))))))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (unary_expression operand: (decimal_integer_literal)))) (break_statement))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { int [ ] a = { 1 , 6 , 1 , 1 , 1 }; System . out . println ( find_n ( a ) ) ; }	public static void main ( String [ ] args ) { int [ ] a = { 1 , 6 , 1 , 1 , 1 } ; System . out . println ( find_n ( a ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier))))))))
static int findMaximum ( int arr [ ] , int low , int high ) { if ( low == high ) return arr [ low ] ; if ( ( high == low + 1 ) && arr [ low ] >= arr [ high ] ) return arr [ low ] ; if ( ( high == low + 1 ) && arr [ low ] < arr [ high ] ) return arr [ high ] ; int mid = ( low + high ) / 2 ; if ( arr [ mid ] > arr [ mid + 1 ] && arr [ mid ] > arr [ mid - 1 ] ) return arr [ mid ] ; if ( arr [ mid ] > arr [ mid + 1 ] && arr [ mid ] < arr [ mid - 1 ] ) return findMaximum ( arr , low , mid - 1 ) ; else return findMaximum ( arr , mid + 1 , high ) ; }	static int findMaximum ( int arr [ ] , int low , int high ) { if ( low == high ) return arr [ low ] ; if ( ( high == low + 1 ) && arr [ low ] >= arr [ high ] ) return arr [ low ] ; if ( ( high == low + 1 ) && arr [ low ] < arr [ high ] ) return arr [ high ] ; int mid = ( low + high ) / 2 ; if ( arr [ mid ] > arr [ mid + 1 ] && arr [ mid ] > arr [ mid - 1 ] ) return arr [ mid ] ; if ( arr [ mid ] > arr [ mid + 1 ] && arr [ mid ] < arr [ mid - 1 ] ) return findMaximum ( arr , low , mid - 1 ) ; else return findMaximum ( arr , mid + 1 , high ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (return_statement (array_access array: (identifier) index: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))))) consequence: (return_statement (array_access array: (identifier) index: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))))) consequence: (return_statement (array_access array: (identifier) index: (identifier)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (decimal_integer_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) consequence: (return_statement (array_access array: (identifier) index: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) consequence: (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (binary_expression left: (identifier) right: (decimal_integer_literal))))) alternative: (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (decimal_integer_literal)) (identifier)))))))
public static void main ( String [ ] args ) { int arr [ ] = { 1 , 3 , 50 , 10 , 9 , 7 , 6 }; int n = arr . length ; System . out . println ( "The maximum element is " + findMaximum ( arr , 0 , n - 1 ) ) ; }	public static void main ( String [ ] args ) { int arr [ ] = { 1 , 3 , 50 , 10 , 9 , 7 , 6 } ; int n = arr . length ; System . out . println ( " The ▁ maximum ▁ element ▁ is ▁ " + findMaximum ( arr , 0 , n - 1 ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal) (binary_expression left: (identifier) right: (decimal_integer_literal))))))))))
static void quadrant ( String s ) { int l = s . length ( ) ; int i ; if ( s . contains ( "+" ) ) { i = s . indexOf ( '+' ) ; } else { i = s . indexOf ( '-' ) ; } String real = s . substring ( 0 , i ) ; String imaginary = s . substring ( i + 1 , l - 1 ) ; int x = Integer . valueOf ( real ) ; int y = Integer . valueOf ( imaginary ) ; if ( x > 0 && y > 0 ) System . out . print ( "Quadrant 1" ) ; else if ( x < 0 && y > 0 ) System . out . print ( "Quadrant 2" ) ; else if ( x < 0 && y < 0 ) System . out . print ( "Quadrant 3" ) ; else if ( x > 0 && y < 0 ) System . out . print ( "Quadrant 4" ) ; else if ( x == 0 && y > 0 ) System . out . print ( "Lies on positive" + " Imaginary axis" ) ; else if ( x == 0 && y < 0 ) System . out . print ( "Lies on negative" + " Imaginary axis" ) ; else if ( y == 0 && x < 0 ) System . out . print ( "Lies on negative" + " X-axis" ) ; else if ( y == 0 && x > 0 ) System . out . print ( "Lies on positive" + " X-axis" ) ; else System . out . print ( "Lies on the Origin" ) ; }	static void quadrant ( String s ) { int l = s . length ( ) ; int i ; if ( s . contains ( " + " ) ) { i = s . indexOf ( ' + ' ) ; } else { i = s . indexOf ( ' - ' ) ; } String real = s . substring ( 0 , i ) ; String imaginary = s . substring ( i + 1 , l - 1 ) ; int x = Integer . valueOf ( real ) ; int y = Integer . valueOf ( imaginary ) ; if ( x > 0 && y > 0 ) System . out . print ( " Quadrant ▁ 1" ) ; else if ( x < 0 && y > 0 ) System . out . print ( " Quadrant ▁ 2" ) ; else if ( x < 0 && y < 0 ) System . out . print ( " Quadrant ▁ 3" ) ; else if ( x > 0 && y < 0 ) System . out . print ( " Quadrant ▁ 4" ) ; else if ( x == 0 && y > 0 ) System . out . print ( " Lies ▁ on ▁ positive " + " ▁ Imaginary ▁ axis " ) ; else if ( x == 0 && y < 0 ) System . out . print ( " Lies ▁ on ▁ negative " + " ▁ Imaginary ▁ axis " ) ; else if ( y == 0 && x < 0 ) System . out . print ( " Lies ▁ on ▁ negative " + " ▁ X - axis " ) ; else if ( y == 0 && x > 0 ) System . out . print ( " Lies ▁ on ▁ positive " + " ▁ X - axis " ) ; else System . out . print ( " Lies ▁ on ▁ the ▁ Origin " ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier))) (if_statement condition: (parenthesized_expression (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (string_literal)))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (character_literal)))))) alternative: (block (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (character_literal))))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal) (identifier))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal)) (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (string_literal))))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (string_literal))))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (string_literal))))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (string_literal))))) alternative: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal))))))))))))))
public static void main ( String [ ] args ) { String s = "5+3i" ; quadrant ( s ) ; }	public static void main ( String [ ] args ) { String s = "5 + 3i " ; quadrant ( s ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (string_literal))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier))))))
public static void printSeries ( int n ) { int [ ] nmtr = new int [ ] { 1 , 1 , 1 , 3 }; int [ ] dntr = new int [ ] { 0 , 4 , 2 , 4 }; for ( int i = 1 ; i <= n ; i ++ ) { if ( i % 4 == 0 ) System . out . print ( nmtr [ i % 4 ] + ( i / 4 ) - 1 + " " ) ; else { System . out . print ( nmtr [ i % 4 ] + ( ( i / 4 ) * dntr [ i % 4 ] ) + "/" + dntr [ i % 4 ] + " " ) ; } } }	public static void printSeries ( int n ) { int [ ] nmtr = new int [ ] { 1 , 1 , 1 , 3 } ; int [ ] dntr = new int [ ] { 0 , 4 , 2 , 4 } ; for ( int i = 1 ; i <= n ; i ++ ) { if ( i % 4 == 0 ) System . out . print ( nmtr [ i % 4 ] + ( i / 4 ) - 1 + " ▁ " ) ; else { System . out . print ( nmtr [ i % 4 ] + ( ( i / 4 ) * dntr [ i % 4 ] ) + " / " + dntr [ i % 4 ] + " ▁ " ) ; } } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal))))) (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (decimal_integer_literal)) right: (string_literal))))) alternative: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) right: (string_literal)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (string_literal)))))))))))
public static void main ( String [ ] args ) { int n = 9 ; printSeries ( n ) ; }	public static void main ( String [ ] args ) { int n = 9 ; printSeries ( n ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier))))))
static int countPairs ( int arr [ ] , int n ) { int forward [ ] = new int [ n ] ; Stack < Integer > sForward = new Stack < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { while ( ! sForward . empty ( ) && arr [ i ] > arr [ ( Integer ) sForward . peek ( ) ] ) { forward [ ( Integer ) sForward . peek ( ) ] = 1 ; sForward . pop ( ) ; } sForward . push ( i ) ; } int backward [ ] = new int [ n ] ; Stack < Integer > sBackward = new Stack < Integer > ( ) ; for ( int i = n - 1 ; i >= 0 ; i -- ) { while ( ! sBackward . empty ( ) && arr [ i ] > arr [ ( Integer ) sBackward . peek ( ) ] ) { backward [ ( Integer ) sBackward . peek ( ) ] = 1 ; sBackward . pop ( ) ; } sBackward . push ( i ) ; } int res = 0 ; for ( int i = 0 ; i < n ; i ++ ) { res += forward [ i ] + backward [ i ] ; } return res ; }	static int countPairs ( int arr [ ] , int n ) { int forward [ ] = new int [ n ] ; Stack < Integer > sForward = new Stack < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { while ( ! sForward . empty ( ) && arr [ i ] > arr [ ( Integer ) sForward . peek ( ) ] ) { forward [ ( Integer ) sForward . peek ( ) ] = 1 ; sForward . pop ( ) ; } sForward . push ( i ) ; } int backward [ ] = new int [ n ] ; Stack < Integer > sBackward = new Stack < Integer > ( ) ; for ( int i = n - 1 ; i >= 0 ; i -- ) { while ( ! sBackward . empty ( ) && arr [ i ] > arr [ ( Integer ) sBackward . peek ( ) ] ) { backward [ ( Integer ) sBackward . peek ( ) ] = 1 ; sBackward . pop ( ) ; } sBackward . push ( i ) ; } int res = 0 ; for ( int i = 0 ; i < n ; i ++ ) { res += forward [ i ] + backward [ i ] ; } return res ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (identifier))))) (local_variable_declaration type: (generic_type (type_identifier) (type_arguments (type_identifier))) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (generic_type (type_identifier) (type_arguments (type_identifier))) arguments: (argument_list)))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (while_statement condition: (parenthesized_expression (binary_expression left: (unary_expression operand: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (cast_expression type: (type_identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))))) body: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (cast_expression type: (type_identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) right: (decimal_integer_literal))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (identifier))))) (local_variable_declaration type: (generic_type (type_identifier) (type_arguments (type_identifier))) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (generic_type (type_identifier) (type_arguments (type_identifier))) arguments: (argument_list)))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (decimal_integer_literal)))) condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) update: (update_expression (identifier)) body: (block (while_statement condition: (parenthesized_expression (binary_expression left: (unary_expression operand: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (cast_expression type: (type_identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))))) body: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (cast_expression type: (type_identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) right: (decimal_integer_literal))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { int arr [ ] = { 1 , 2 , 3 , 4 , 5 }; int n = arr . length ; System . out . println ( countPairs ( arr , n ) ) ; }	public static void main ( String [ ] args ) { int arr [ ] = { 1 , 2 , 3 , 4 , 5 } ; int n = arr . length ; System . out . println ( countPairs ( arr , n ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier))))))))
static int findTransitionPoint ( int arr [ ] , int n ) { int lb = 0 , ub = n - 1 ; while ( lb <= ub ) { int mid = ( lb + ub ) / 2 ; if ( arr [ mid ] == 0 ) lb = mid + 1 ; else if ( arr [ mid ] == 1 ) { if ( arr [ mid - 1 ] == 0 ) return mid ; ub = mid - 1 ; } } return - 1 ; }	static int findTransitionPoint ( int arr [ ] , int n ) { int lb = 0 , ub = n - 1 ; while ( lb <= ub ) { int mid = ( lb + ub ) / 2 ; if ( arr [ mid ] == 0 ) lb = mid + 1 ; else if ( arr [ mid ] == 1 ) { if ( arr [ mid - 1 ] == 0 ) return mid ; ub = mid - 1 ; } } return - 1 ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (decimal_integer_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) consequence: (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) alternative: (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) consequence: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (decimal_integer_literal))) consequence: (return_statement (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal))))))))) (return_statement (unary_expression operand: (decimal_integer_literal)))))
public static void main ( String args [ ] ) { int arr [ ] = { 0 , 0 , 0 , 0 , 1 , 1 }; int point = findTransitionPoint ( arr , arr . length ) ; System . out . println ( point >= 0 ? "Transition point is " + point : "There is no transition point" ) ; }	public static void main ( String args [ ] ) { int arr [ ] = { 0 , 0 , 0 , 0 , 1 , 1 } ; int point = findTransitionPoint ( arr , arr . length ) ; System . out . println ( point >= 0 ? " Transition ▁ point ▁ is ▁ " + point : " There ▁ is ▁ no ▁ transition ▁ point " ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier) dimensions: (dimensions))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list (identifier) (field_access object: (identifier) field: (identifier)))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) consequence: (binary_expression left: (string_literal) right: (identifier)) alternative: (string_literal)))))))
static int sumNatural ( int n ) { int sum = ( n * ( n + 1 ) ) ; return sum ; }	static int sumNatural ( int n ) { int sum = ( n * ( n + 1 ) ) ; return sum ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (parenthesized_expression (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))))))) (return_statement (identifier))))
static int sumEven ( int l , int r ) { return sumNatural ( r / 2 ) - sumNatural ( ( l - 1 ) / 2 ) ; }	static int sumEven ( int l , int r ) { return sumNatural ( r / 2 ) - sumNatural ( ( l - 1 ) / 2 ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (return_statement (binary_expression left: (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (decimal_integer_literal))))))))
public static void main ( String [ ] args ) { int l = 2 , r = 5 ; System . out . println ( "Sum of Natural numbers from L to R is " + sumEven ( l , r ) ) ; }	public static void main ( String [ ] args ) { int l = 2 , r = 5 ; System . out . println ( " Sum ▁ of ▁ Natural ▁ numbers ▁ from ▁ L ▁ to ▁ R ▁ is ▁ " + sumEven ( l , r ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier)))))))))
static int minimumBox ( int [ ] arr , int n ) { Queue < Integer > q = new LinkedList < > ( ) ; Arrays . sort ( arr ) ; q . add ( arr [ 0 ] ) ; for ( int i = 1 ; i < n ; i ++ ) { int now = q . element ( ) ; if ( arr [ i ] >= 2 * now ) q . remove ( ) ; q . add ( arr [ i ] ) ; } return q . size ( ) ; }	static int minimumBox ( int [ ] arr , int n ) { Queue < Integer > q = new LinkedList < > ( ) ; Arrays . sort ( arr ) ; q . add ( arr [ 0 ] ) ; for ( int i = 1 ; i < n ; i ++ ) { int now = q . element ( ) ; if ( arr [ i ] >= 2 * now ) q . remove ( ) ; q . add ( arr [ i ] ) ; } return q . size ( ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (generic_type (type_identifier) (type_arguments (type_identifier))) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (generic_type (type_identifier) (type_arguments)) arguments: (argument_list)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (decimal_integer_literal))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (decimal_integer_literal) right: (identifier)))) consequence: (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (identifier))))))) (return_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String args [ ] ) { int [ ] arr = { 4 , 1 , 2 , 8 }; int n = arr . length ; System . out . println ( minimumBox ( arr , n ) ) ; }	public static void main ( String args [ ] ) { int [ ] arr = { 4 , 1 , 2 , 8 } ; int n = arr . length ; System . out . println ( minimumBox ( arr , n ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier) dimensions: (dimensions))) body: (block (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier))))))))
static int findLength ( String str , int n ) { int sum [ ] = new int [ n + 1 ] ; sum [ 0 ] = 0 ; for ( int i = 1 ; i <= n ; i ++ ) sum [ i ] = ( sum [ i - 1 ] + str . charAt ( i - 1 ) - '0' ) ; int ans = 0 ; for ( int len = 2 ; len <= n ; len += 2 ) { for ( int i = 0 ; i <= n - len ; i ++ ) { int j = i + len - 1 ; if ( sum [ i + len / 2 ] - sum [ i ] == sum [ i + len ] - sum [ i + len / 2 ] ) ans = Math . max ( ans , len ) ; } } return ans ; }	static int findLength ( String str , int n ) { int sum [ ] = new int [ n + 1 ] ; sum [ 0 ] = 0 ; for ( int i = 1 ; i <= n ; i ++ ) sum [ i ] = ( sum [ i - 1 ] + str . charAt ( i - 1 ) - '0' ) ; int ans = 0 ; for ( int len = 2 ; len <= n ; len += 2 ) { for ( int i = 0 ; i <= n - len ; i ++ ) { int j = i + len - 1 ; if ( sum [ i + len / 2 ] - sum [ i ] == sum [ i + len ] - sum [ i + len / 2 ] ) ans = Math . max ( ans , len ) ; } } return ans ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (decimal_integer_literal)) right: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal))))) right: (character_literal)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (assignment_expression left: (identifier) right: (decimal_integer_literal)) body: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier))) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (decimal_integer_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (array_access array: (identifier) index: (identifier))) right: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (identifier))) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal))))))) consequence: (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier)))))))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { String str = "123123" ; System . out . println ( "Length of the substring is " + findLength ( str , str . length ( ) ) ) ; }	public static void main ( String [ ] args ) { String str = "123123" ; System . out . println ( " Length ▁ of ▁ the ▁ substring ▁ is ▁ " + findLength ( str , str . length ( ) ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (string_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))))))))
static void kmax ( int arr [ ] , int k , int n ) { for ( int c = 0 ; c < k ; c ++ ) { int max_so_far = Integer . MIN_VALUE ; int max_here = 0 ; int start = 0 , end = 0 , s = 0 ; for ( int i = 0 ; i < n ; i ++ ) { max_here += arr [ i ] ; if ( max_so_far < max_here ) { max_so_far = max_here ; start = s ; end = i ; } if ( max_here < 0 ) { max_here = 0 ; s = i + 1 ; } } System . out . println ( "Maximum non-overlapping sub-arraysum" + ( c + 1 ) + ": " + max_so_far + ", starting index: " + start + ", ending index: " + end + "." ) ; for ( int l = start ; l <= end ; l ++ ) arr [ l ] = Integer . MIN_VALUE ; } System . out . println ( ) ; }	static void kmax ( int arr [ ] , int k , int n ) { for ( int c = 0 ; c < k ; c ++ ) { int max_so_far = Integer . MIN_VALUE ; int max_here = 0 ; int start = 0 , end = 0 , s = 0 ; for ( int i = 0 ; i < n ; i ++ ) { max_here += arr [ i ] ; if ( max_so_far < max_here ) { max_so_far = max_here ; start = s ; end = i ; } if ( max_here < 0 ) { max_here = 0 ; s = i + 1 ; } } System . out . println ( " Maximum ▁ non - overlapping ▁ sub - arraysum " + ( c + 1 ) + " : ▁ " + max_so_far + " , ▁ starting ▁ index : ▁ " + start + " , ▁ ending ▁ index : ▁ " + end + " . " ) ; for ( int l = start ; l <= end ; l ++ ) arr [ l ] = Integer . MIN_VALUE ; } System . out . println ( ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (string_literal) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (string_literal)) right: (identifier)) right: (string_literal)) right: (identifier)) right: (string_literal)) right: (identifier)) right: (string_literal))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (identifier))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (field_access object: (identifier) field: (identifier))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { int arr1 [ ] = { 4 , 1 , 1 , - 1 , - 3 , - 5 , 6 , 2 , - 6 , - 2 }; int k1 = 3 ; int n1 = arr1 . length ; kmax ( arr1 , k1 , n1 ) ; int arr2 [ ] = { 5 , 1 , 2 , - 6 , 2 , - 1 , 3 , 1 }; int k2 = 2 ; int n2 = arr2 . length ; kmax ( arr2 , k2 , n2 ) ; }	public static void main ( String [ ] args ) { int arr1 [ ] = { 4 , 1 , 1 , - 1 , - 3 , - 5 , 6 , 2 , - 6 , - 2 } ; int k1 = 3 ; int n1 = arr1 . length ; kmax ( arr1 , k1 , n1 ) ; int arr2 [ ] = { 5 , 1 , 2 , - 6 , 2 , - 1 , 3 , 1 } ; int k2 = 2 ; int n2 = arr2 . length ; kmax ( arr2 , k2 , n2 ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (unary_expression operand: (decimal_integer_literal)) (unary_expression operand: (decimal_integer_literal)) (unary_expression operand: (decimal_integer_literal)) (decimal_integer_literal) (decimal_integer_literal) (unary_expression operand: (decimal_integer_literal)) (unary_expression operand: (decimal_integer_literal))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (unary_expression operand: (decimal_integer_literal)) (decimal_integer_literal) (unary_expression operand: (decimal_integer_literal)) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))))))
static boolean isAMultipleOf4 ( int n ) { if ( ( n & 3 ) == 0 ) return true ; return false ; }	static boolean isAMultipleOf4 ( int n ) { if ( ( n & 3 ) == 0 ) return true ; return false ; }	(method_declaration (modifiers) type: (boolean_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (decimal_integer_literal))) consequence: (return_statement (true))) (return_statement (false))))
public static void main ( String [ ] args ) { int n = 16 ; System . out . println ( isAMultipleOf4 ( n ) ? "Yes" : "No" ) ; }	public static void main ( String [ ] args ) { int n = 16 ; System . out . println ( isAMultipleOf4 ( n ) ? " Yes " : " No " ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (method_invocation name: (identifier) arguments: (argument_list (identifier))) consequence: (string_literal) alternative: (string_literal)))))))
static int summingSeries ( long n ) { return ( int ) Math . pow ( n , 2 ) ; }	static int summingSeries ( long n ) { return ( int ) Math . pow ( n , 2 ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (return_statement (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal)))))))
public static void main ( String [ ] args ) { int n = 100 ; System . out . println ( "The sum of n term is: " + summingSeries ( n ) ) ; }	public static void main ( String [ ] args ) { int n = 100 ; System . out . println ( " The ▁ sum ▁ of ▁ n ▁ term ▁ is : ▁ " + summingSeries ( n ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (method_invocation name: (identifier) arguments: (argument_list (identifier)))))))))
public static int cubesum ( int n ) { return 2 * n * n * ( n + 1 ) * ( n + 1 ) ; }	public static int cubesum ( int n ) { return 2 * n * n * ( n + 1 ) * ( n + 1 ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (return_statement (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (decimal_integer_literal) right: (identifier)) right: (identifier)) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal)))))))
public static void main ( String args [ ] ) { int a = 8 ; System . out . println ( cubesum ( a ) ) ; }	public static void main ( String args [ ] ) { int a = 8 ; System . out . println ( cubesum ( a ) ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier) dimensions: (dimensions))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier))))))))
static void printArray ( int [ ] A , int n , int K ) { int minEle = Integer . MAX_VALUE , maxEle = Integer . MAX_VALUE ; for ( int i = 0 ; i < n ; i ++ ) { minEle = Math . min ( minEle , A [ i ] ) ; maxEle = Math . max ( maxEle , A [ i ] ) ; } if ( K != 0 ) { if ( K % 2 == 1 ) { for ( int i = 0 ; i < n ; i ++ ) A [ i ] = maxEle - A [ i ] ; } else { for ( int i = 0 ; i < n ; i ++ ) A [ i ] = A [ i ] - minEle ; } } for ( int i = 0 ; i < n ; i ++ ) System . out . print ( A [ i ] + " " ) ; }	static void printArray ( int [ ] A , int n , int K ) { int minEle = Integer . MAX_VALUE , maxEle = Integer . MAX_VALUE ; for ( int i = 0 ; i < n ; i ++ ) { minEle = Math . min ( minEle , A [ i ] ) ; maxEle = Math . max ( maxEle , A [ i ] ) ; } if ( K != 0 ) { if ( K % 2 == 1 ) { for ( int i = 0 ; i < n ; i ++ ) A [ i ] = maxEle - A [ i ] ; } else { for ( int i = 0 ; i < n ; i ++ ) A [ i ] = A [ i ] - minEle ; } } for ( int i = 0 ; i < n ; i ++ ) System . out . print ( A [ i ] + " ▁ " ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier))) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (array_access array: (identifier) index: (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (array_access array: (identifier) index: (identifier)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (identifier) right: (array_access array: (identifier) index: (identifier))))))) alternative: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))))))))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (string_literal))))))))
public static void main ( String [ ] args ) { int [ ] arr = { 4 , 8 , 12 , 16 }; int K = 4 ; int N = arr . length ; printArray ( arr , N , K ) ; }	public static void main ( String [ ] args ) { int [ ] arr = { 4 , 8 , 12 , 16 } ; int K = 4 ; int N = arr . length ; printArray ( arr , N , K ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))))))
static void findSum ( int arr [ ] , int n ) { for ( int i = 0 ; i < n ; i ++ ) sum += arr [ i ] ; }	static void findSum ( int arr [ ] , int n ) { for ( int i = 0 ; i < n ; i ++ ) sum += arr [ i ] ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))))))
static int cntWays ( int arr [ ] , int i , int ck , int k , int n , int curr_sum ) { if ( sum % k != 0 ) return 0 ; if ( i != n && ck == k + 1 ) return 0 ; if ( i == n ) { if ( ck == k + 1 ) return 1 ; else return 0 ; } if ( v [ i ] [ ck ] ) return dp [ i ] [ ck ] ; curr_sum += arr [ i ] ; v [ i ] [ ck ] = true ; dp [ i ] [ ck ] = cntWays ( arr , i + 1 , ck , k , n , curr_sum ) ; if ( curr_sum == ( sum / k ) * ck ) dp [ i ] [ ck ] += cntWays ( arr , i + 1 , ck + 1 , k , n , curr_sum ) ; return dp [ i ] [ ck ] ; }	static int cntWays ( int arr [ ] , int i , int ck , int k , int n , int curr_sum ) { if ( sum % k != 0 ) return 0 ; if ( i != n && ck == k + 1 ) return 0 ; if ( i == n ) { if ( ck == k + 1 ) return 1 ; else return 0 ; } if ( v [ i ] [ ck ] ) return dp [ i ] [ ck ] ; curr_sum += arr [ i ] ; v [ i ] [ ck ] = true ; dp [ i ] [ ck ] = cntWays ( arr , i + 1 , ck , k , n , curr_sum ) ; if ( curr_sum == ( sum / k ) * ck ) dp [ i ] [ ck ] += cntWays ( arr , i + 1 , ck + 1 , k , n , curr_sum ) ; return dp [ i ] [ ck ] ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (decimal_integer_literal))) consequence: (return_statement (decimal_integer_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal))))) consequence: (return_statement (decimal_integer_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (block (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (return_statement (decimal_integer_literal)) alternative: (return_statement (decimal_integer_literal))))) (if_statement condition: (parenthesized_expression (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier))) consequence: (return_statement (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) (expression_statement (assignment_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (true))) (expression_statement (assignment_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (decimal_integer_literal)) (identifier) (identifier) (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (identifier)))) consequence: (expression_statement (assignment_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (decimal_integer_literal)) (binary_expression left: (identifier) right: (decimal_integer_literal)) (identifier) (identifier) (identifier)))))) (return_statement (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)))))