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static int max_element ( int arr [ ] ) { int max_e = Integer . MIN_VALUE ; for ( int i = 0 ; i < arr . length ; i ++ ) { max_e = Math . max ( max_e , arr [ i ] ) ; } return max_e ; }	static int max_element ( int arr [ ] ) { int max_e = Integer . MIN_VALUE ; for ( int i = 0 ; i < arr . length ; i ++ ) { max_e = Math . max ( max_e , arr [ i ] ) ; } return max_e ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions))) body: (block (local_variable_declaration type: (integral_type) 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: (field_access object: (identifier) field: (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)))))))) (return_statement (identifier))))
static int nonPrimeSum ( int arr [ ] , int n ) { int max_val = max_element ( arr ) ; boolean prime [ ] = new boolean [ max_val + 1 ] ; for ( int i = 0 ; i < prime . length ; i ++ ) prime [ i ] = true ; prime [ 0 ] = false ; prime [ 1 ] = false ; for ( int p = 2 ; p * p <= max_val ; p ++ ) { if ( prime [ p ] == true ) { for ( int i = p * 2 ; i <= max_val ; i += p ) prime [ i ] = false ; } } int sum = 0 ; for ( int i = 0 ; i < n ; i ++ ) if ( ! prime [ arr [ i ] ] ) sum += arr [ i ] ; return sum ; }	static int nonPrimeSum ( int arr [ ] , int n ) { int max_val = max_element ( arr ) ; boolean prime [ ] = new boolean [ max_val + 1 ] ; for ( int i = 0 ; i < prime . length ; i ++ ) prime [ i ] = true ; prime [ 0 ] = false ; prime [ 1 ] = false ; for ( int p = 2 ; p * p <= max_val ; p ++ ) { if ( prime [ p ] == true ) { for ( int i = p * 2 ; i <= max_val ; i += p ) prime [ i ] = false ; } } int sum = 0 ; for ( int i = 0 ; i < n ; i ++ ) if ( ! prime [ arr [ i ] ] ) sum += arr [ i ] ; return sum ; }	(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: (method_invocation name: (identifier) arguments: (argument_list (identifier))))) (local_variable_declaration type: (boolean_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) 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: (field_access object: (identifier) field: (identifier))) update: (update_expression (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (true)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (decimal_integer_literal)) right: (false))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (decimal_integer_literal)) right: (false))) (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: (identifier) right: (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: (block (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: (identifier)) update: (assignment_expression left: (identifier) right: (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (false)))))))) (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: (if_statement condition: (parenthesized_expression (unary_expression operand: (array_access array: (identifier) index: (array_access array: (identifier) index: (identifier))))) consequence: (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))))) (return_statement (identifier))))
public static void main ( String args [ ] ) { int arr [ ] = { 1 , 3 , 7 , 4 , 9 , 8 }; int n = arr . length ; System . out . println ( nonPrimeSum ( arr , n ) ) ; }	public static void main ( String args [ ] ) { int arr [ ] = { 1 , 3 , 7 , 4 , 9 , 8 } ; int n = arr . length ; System . out . println ( nonPrimeSum ( 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: (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: (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 maxlenAP ( int a [ ] , int n , int d ) { HashMap < Integer , Integer > m = new HashMap < Integer , Integer > ( ) ; int maxt = 1 ; for ( int i = 0 ; i < n ; i ++ ) { if ( m . containsKey ( a [ i ] - i * d ) ) { int freq = m . get ( a [ i ] - i * d ) ; freq ++ ; m . put ( a [ i ] - i * d , freq ) ; } else { m . put ( a [ i ] - i * d , 1 ) ; } } for ( Entry < Integer , Integer > val : m . entrySet ( ) ) { if ( maxt < val . getValue ( ) ) maxt = val . getValue ( ) ; } return maxt ; }	static int maxlenAP ( int a [ ] , int n , int d ) { HashMap < Integer , Integer > m = new HashMap < Integer , Integer > ( ) ; int maxt = 1 ; for ( int i = 0 ; i < n ; i ++ ) { if ( m . containsKey ( a [ i ] - i * d ) ) { int freq = m . get ( a [ i ] - i * d ) ; freq ++ ; m . put ( a [ i ] - i * d , freq ) ; } else { m . put ( a [ i ] - i * d , 1 ) ; } } for ( Entry < Integer , Integer > val : m . entrySet ( ) ) { if ( maxt < val . getValue ( ) ) maxt = val . getValue ( ) ; } return maxt ; }	(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 (local_variable_declaration type: (generic_type (type_identifier) (type_arguments (type_identifier) (type_identifier))) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (generic_type (type_identifier) (type_arguments (type_identifier) (type_identifier))) arguments: (argument_list)))) (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 (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (identifier) right: (identifier)))))) consequence: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (identifier) right: (identifier))))))) (expression_statement (update_expression (identifier))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (identifier) right: (identifier))) (identifier))))) alternative: (block (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (identifier) right: (identifier))) (decimal_integer_literal)))))))) (enhanced_for_statement type: (generic_type (type_identifier) (type_arguments (type_identifier) (type_identifier))) name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) consequence: (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { int n = 10 , d = 3 ; int a [ ] = new int [ ] { 1 , 4 , 2 , 5 , 20 , 11 , 56 , 100 , 20 , 23 }; System . out . print ( maxlenAP ( a , n , d ) + "\n" ) ; }	public static void main ( String [ ] args ) { int n = 10 , d = 3 ; int a [ ] = new int [ ] { 1 , 4 , 2 , 5 , 20 , 11 , 56 , 100 , 20 , 23 } ; System . out . print ( maxlenAP ( a , n , d ) + " \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)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_creation_expression type: (integral_type) 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) (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 (binary_expression left: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))) right: (string_literal)))))))
static void findSet ( int arr [ ] , int n , int k , int m ) { Vector < Integer > [ ] remainder_set = new Vector [ k ] ; for ( int i = 0 ; i < k ; i ++ ) { remainder_set [ i ] = new Vector < Integer > ( ) ; } for ( int i = 0 ; i < n ; i ++ ) { int rem = arr [ i ] % k ; remainder_set [ rem ] . add ( arr [ i ] ) ; } for ( int i = 0 ; i < k ; i ++ ) { if ( remainder_set [ i ] . size ( ) >= m ) { System . out . println ( "Yes" ) ; for ( int j = 0 ; j < m ; j ++ ) System . out . print ( remainder_set [ i ] . get ( j ) + " " ) ; return ; } } System . out . print ( "No" ) ; }	static void findSet ( int arr [ ] , int n , int k , int m ) { Vector < Integer > [ ] remainder_set = new Vector [ k ] ; for ( int i = 0 ; i < k ; i ++ ) { remainder_set [ i ] = new Vector < Integer > ( ) ; } for ( int i = 0 ; i < n ; i ++ ) { int rem = arr [ i ] % k ; remainder_set [ rem ] . add ( arr [ i ] ) ; } for ( int i = 0 ; i < k ; i ++ ) { if ( remainder_set [ i ] . size ( ) >= m ) { System . out . println ( " Yes " ) ; for ( int j = 0 ; j < m ; j ++ ) System . out . print ( remainder_set [ i ] . get ( j ) + " ▁ " ) ; return ; } } System . out . print ( " No " ) ; }	(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)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (array_type element: (generic_type (type_identifier) (type_arguments (type_identifier))) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (type_identifier) dimensions: (dimensions_expr (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: (array_access array: (identifier) index: (identifier)) right: (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 (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier)))) (expression_statement (method_invocation object: (array_access array: (identifier) index: (identifier)) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (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 (if_statement condition: (parenthesized_expression (binary_expression left: (method_invocation object: (array_access array: (identifier) index: (identifier)) name: (identifier) arguments: (argument_list)) right: (identifier))) consequence: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (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: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (method_invocation object: (array_access array: (identifier) index: (identifier)) name: (identifier) arguments: (argument_list (identifier))) right: (string_literal)))))) (return_statement))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal))))))
public static void main ( String [ ] args ) { int arr [ ] = { 5 , 8 , 9 , 12 , 13 , 7 , 11 , 15 }; int k = 4 ; int m = 3 ; int n = arr . length ; findSet ( arr , n , k , m ) ; }	public static void main ( String [ ] args ) { int arr [ ] = { 5 , 8 , 9 , 12 , 13 , 7 , 11 , 15 } ; int k = 4 ; int m = 3 ; int n = arr . length ; findSet ( arr , n , k , m ) ; }	(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) (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: (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) (identifier))))))
static boolean isScalarMatrix ( int mat [ ] [ ] ) { for ( int i = 0 ; i < N ; i ++ ) for ( int j = 0 ; j < N ; j ++ ) if ( ( i != j ) && ( mat [ i ] [ j ] != 0 ) ) return false ; for ( int i = 0 ; i < N - 1 ; i ++ ) if ( mat [ i ] [ i ] != mat [ i + 1 ] [ i + 1 ] ) return false ; return true ; }	static boolean isScalarMatrix ( int mat [ ] [ ] ) { for ( int i = 0 ; i < N ; i ++ ) for ( int j = 0 ; j < N ; j ++ ) if ( ( i != j ) && ( mat [ i ] [ j ] != 0 ) ) return false ; for ( int i = 0 ; i < N - 1 ; i ++ ) if ( mat [ i ] [ i ] != mat [ i + 1 ] [ i + 1 ] ) return false ; return true ; }	(method_declaration (modifiers) type: (boolean_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier) dimensions: (dimensions))) 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: (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: (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (parenthesized_expression (binary_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (decimal_integer_literal))))) consequence: (return_statement (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: (binary_expression left: (identifier) right: (decimal_integer_literal))) update: (update_expression (identifier)) body: (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (array_access array: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) index: (binary_expression left: (identifier) right: (decimal_integer_literal))))) consequence: (return_statement (false)))) (return_statement (true))))
public static void main ( String args [ ] ) { int mat [ ] [ ] = { { 2 , 0 , 0 , 0 }, { 0 , 2 , 0 , 0 }, { 0 , 0 , 2 , 0 }, { 0 , 0 , 0 , 2 } }; if ( isScalarMatrix ( mat ) ) System . out . println ( "Yes" ) ; else System . out . println ( "No" ) ; }	public static void main ( String args [ ] ) { int mat [ ] [ ] = { { 2 , 0 , 0 , 0 } , { 0 , 2 , 0 , 0 } , { 0 , 0 , 2 , 0 } , { 0 , 0 , 0 , 2 } } ; if ( isScalarMatrix ( mat ) ) System . out . println ( " Yes " ) ; else System . out . println ( " No " ) ; }	(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 (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)) (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)) (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)) (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal))))) (if_statement condition: (parenthesized_expression (method_invocation name: (identifier) arguments: (argument_list (identifier)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))))))
static double minRevolutions ( double r , int x1 , int y1 , int x2 , int y2 ) { double d = Math . sqrt ( ( x1 - x2 ) * ( x1 - x2 ) + ( y1 - y2 ) * ( y1 - y2 ) ) ; return Math . ceil ( d / ( 2 * r ) ) ; }	static double minRevolutions ( double r , int x1 , int y1 , int x2 , int y2 ) { double d = Math . sqrt ( ( x1 - x2 ) * ( x1 - x2 ) + ( y1 - y2 ) * ( y1 - y2 ) ) ; return Math . ceil ( d / ( 2 * r ) ) ; }	(method_declaration (modifiers) type: (floating_point_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (floating_point_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 (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) (return_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (decimal_integer_literal) right: (identifier)))))))))
public static void main ( String arg [ ] ) { int r = 2 , x1 = 0 , y1 = 0 ; int x2 = 0 , y2 = 4 ; System . out . print ( ( int ) minRevolutions ( r , x1 , y1 , x2 , y2 ) ) ; }	public static void main ( String arg [ ] ) { int r = 2 , x1 = 0 , y1 = 0 ; int x2 = 0 , y2 = 4 ; System . out . print ( ( int ) minRevolutions ( r , x1 , y1 , x2 , y2 ) ) ; }	(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)) 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: (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 (cast_expression type: (integral_type) value: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier) (identifier)))))))))
static void convert12 ( String str ) { int h1 = ( int ) str . charAt ( 0 ) - '0' ; int h2 = ( int ) str . charAt ( 1 ) - '0' ; int hh = h1 * 10 + h2 ; String Meridien ; if ( hh < 12 ) { Meridien = "AM" ; } else Meridien = "PM" ; hh %= 12 ; if ( hh == 0 ) { System . out . print ( "12" ) ; for ( int i = 2 ; i < 8 ; ++ i ) { System . out . print ( str . charAt ( i ) ) ; } } else { System . out . print ( hh ) ; for ( int i = 2 ; i < 8 ; ++ i ) { System . out . print ( str . charAt ( i ) ) ; } } System . out . println ( " " + Meridien ) ; }	static void convert12 ( String str ) { int h1 = ( int ) str . charAt ( 0 ) - '0' ; int h2 = ( int ) str . charAt ( 1 ) - '0' ; int hh = h1 * 10 + h2 ; String Meridien ; if ( hh < 12 ) { Meridien = " AM " ; } else Meridien = " PM " ; hh %= 12 ; if ( hh == 0 ) { System . out . print ( "12" ) ; for ( int i = 2 ; i < 8 ; ++ i ) { System . out . print ( str . charAt ( i ) ) ; } } else { System . out . print ( hh ) ; for ( int i = 2 ; i < 8 ; ++ i ) { System . out . print ( str . charAt ( i ) ) ; } } System . out . println ( " ▁ " + Meridien ) ; }	(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: (binary_expression left: (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal)))) right: (character_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal)))) right: (character_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (string_literal)))) alternative: (expression_statement (assignment_expression left: (identifier) right: (string_literal)))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (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: (decimal_integer_literal)) update: (update_expression (identifier)) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))))))))) alternative: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (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: (decimal_integer_literal)) update: (update_expression (identifier)) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (string_literal) right: (identifier)))))))
public static void main ( String ar [ ] ) { String str = "17:35:20" ; convert12 ( str ) ; }	public static void main ( String ar [ ] ) { String str = "17:35:20" ; convert12 ( str ) ; }	(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: (type_identifier) declarator: (variable_declarator name: (identifier) value: (string_literal))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier))))))
static boolean isDigitPresent ( int m , boolean hash [ ] ) { while ( m > 0 ) { if ( hash [ m % 10 ] ) return true ; m = m / 10 ; } return false ; }	static boolean isDigitPresent ( int m , boolean hash [ ] ) { while ( m > 0 ) { if ( hash [ m % 10 ] ) return true ; m = m / 10 ; } return false ; }	(method_declaration (modifiers) type: (boolean_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (boolean_type) name: (identifier) dimensions: (dimensions))) body: (block (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) body: (block (if_statement condition: (parenthesized_expression (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (return_statement (true))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (return_statement (false))))
static int countDivisibles ( int n ) { boolean hash [ ] = new boolean [ 10 ] ; int m = n ; while ( m > 0 ) { hash [ m % 10 ] = true ; m = m / 10 ; } int ans = 0 ; for ( int i = 1 ; i <= Math . sqrt ( n ) ; i ++ ) { if ( n % i == 0 ) { if ( isDigitPresent ( i , hash ) ) ans ++ ; if ( n / i != i ) { if ( isDigitPresent ( n / i , hash ) ) ans ++ ; } } } return ans ; }	static int countDivisibles ( int n ) { boolean hash [ ] = new boolean [ 10 ] ; int m = n ; while ( m > 0 ) { hash [ m % 10 ] = true ; m = m / 10 ; } int ans = 0 ; for ( int i = 1 ; i <= Math . sqrt ( n ) ; i ++ ) { if ( n % i == 0 ) { if ( isDigitPresent ( i , hash ) ) ans ++ ; if ( n / i != i ) { if ( isDigitPresent ( n / i , hash ) ) ans ++ ; } } } return ans ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (local_variable_declaration type: (boolean_type) declarator: (variable_declarator name: (identifier) dimensions: (dimensions) value: (array_creation_expression type: (boolean_type) dimensions: (dimensions_expr (decimal_integer_literal))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (identifier))) (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: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (true))) (expression_statement (assignment_expression left: (identifier) right: (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))) update: (update_expression (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (decimal_integer_literal))) consequence: (block (if_statement condition: (parenthesized_expression (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier)))) consequence: (expression_statement (update_expression (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier))) consequence: (block (if_statement condition: (parenthesized_expression (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)) (identifier)))) consequence: (expression_statement (update_expression (identifier)))))))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { int n = 15 ; System . out . print ( countDivisibles ( n ) ) ; }	public static void main ( String [ ] args ) { int n = 15 ; System . out . print ( countDivisibles ( 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 (method_invocation name: (identifier) arguments: (argument_list (identifier))))))))
static boolean findGreater ( int x , int y ) { if ( x > y ) { return false ; } else { return true ; } }	static boolean findGreater ( int x , int y ) { if ( x > y ) { return false ; } else { return true ; } }	(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 (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (block (return_statement (false))) alternative: (block (return_statement (true))))))
public static void main ( String [ ] args ) { int x = 4 ; int y = 9 ; if ( findGreater ( x , y ) ) System . out . println ( "1" ) ; else System . out . println ( "2" ) ; }	public static void main ( String [ ] args ) { int x = 4 ; int y = 9 ; if ( findGreater ( x , y ) ) System . out . println ( "1" ) ; else System . out . println ( "2" ) ; }	(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))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (if_statement condition: (parenthesized_expression (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier)))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) alternative: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))))))
static void triangular_series ( int n ) { int i , j = 1 , k = 1 ; for ( i = 1 ; i <= n ; i ++ ) { System . out . printf ( "%d " , k ) ; j = j + 1 ; k = k + j ; } }	static void triangular_series ( int n ) { int i , j = 1 , k = 1 ; for ( i = 1 ; i <= n ; i ++ ) { System . out . printf ( " % d ▁ " , k ) ; j = j + 1 ; k = k + j ; } }	(method_declaration (modifiers) type: (void_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)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (assignment_expression left: (identifier) right: (decimal_integer_literal)) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier))))))))
public static void main ( String [ ] args ) { int n = 5 ; triangular_series ( n ) ; }	public static void main ( String [ ] args ) { int n = 5 ; triangular_series ( 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 maxPathSum ( int tri [ ] [ ] , int m , int n ) { for ( int i = m - 1 ; i >= 0 ; i -- ) { for ( int j = 0 ; j <= i ; j ++ ) { if ( tri [ i + 1 ] [ j ] > tri [ i + 1 ] [ j + 1 ] ) tri [ i ] [ j ] += tri [ i + 1 ] [ j ] ; else tri [ i ] [ j ] += tri [ i + 1 ] [ j + 1 ] ; } } return tri [ 0 ] [ 0 ] ; }	static int maxPathSum ( int tri [ ] [ ] , int m , int n ) { for ( int i = m - 1 ; i >= 0 ; i -- ) { for ( int j = 0 ; j <= i ; j ++ ) { if ( tri [ i + 1 ] [ j ] > tri [ i + 1 ] [ j + 1 ] ) tri [ i ] [ j ] += tri [ i + 1 ] [ j ] ; else tri [ i ] [ j ] += tri [ i + 1 ] [ j + 1 ] ; } } return tri [ 0 ] [ 0 ] ; }	(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 (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 (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: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) index: (identifier)) right: (array_access array: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) index: (binary_expression left: (identifier) right: (decimal_integer_literal))))) consequence: (expression_statement (assignment_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (array_access array: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) index: (identifier)))) alternative: (expression_statement (assignment_expression left: (array_access array: (array_access array: (identifier) index: (identifier)) index: (identifier)) right: (array_access array: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))))))))) (return_statement (array_access array: (array_access array: (identifier) index: (decimal_integer_literal)) index: (decimal_integer_literal)))))
public static void main ( String [ ] args ) { int tri [ ] [ ] = { { 1 , 0 , 0 }, { 4 , 8 , 0 }, { 1 , 5 , 3 } }; System . out . println ( maxPathSum ( tri , 2 , 2 ) ) ; }	public static void main ( String [ ] args ) { int tri [ ] [ ] = { { 1 , 0 , 0 } , { 4 , 8 , 0 } , { 1 , 5 , 3 } } ; System . out . println ( maxPathSum ( tri , 2 , 2 ) ) ; }	(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 (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)) (array_initializer (decimal_integer_literal) (decimal_integer_literal) (decimal_integer_literal)) (array_initializer (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) (decimal_integer_literal) (decimal_integer_literal))))))))
static int findSubSequence ( String s , int num ) { int res = 0 ; int i = 0 ; while ( num > 0 ) { if ( ( num & 1 ) == 1 ) res += s . charAt ( i ) - '0' ; i ++ ; num = num >> 1 ; } return res ; }	static int findSubSequence ( String s , int num ) { int res = 0 ; int i = 0 ; while ( num > 0 ) { if ( ( num & 1 ) == 1 ) res += s . charAt ( i ) - '0' ; i ++ ; num = num >> 1 ; } return res ; }	(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) value: (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 (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (decimal_integer_literal))) consequence: (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) right: (character_literal))))) (expression_statement (update_expression (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (return_statement (identifier))))
static int combinedSum ( String s ) { int n = s . length ( ) ; int c_sum = 0 ; int range = ( 1 << n ) - 1 ; for ( int i = 0 ; i <= range ; i ++ ) c_sum += findSubSequence ( s , i ) ; return c_sum ; }	static int combinedSum ( String s ) { int n = s . length ( ) ; int c_sum = 0 ; int range = ( 1 << n ) - 1 ; for ( int i = 0 ; i <= range ; i ++ ) c_sum += findSubSequence ( s , i ) ; return c_sum ; }	(method_declaration (modifiers) type: (integral_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) value: (decimal_integer_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (decimal_integer_literal) right: (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: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier)))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { String s = "123" ; System . out . println ( combinedSum ( s ) ) ; }	public static void main ( String [ ] args ) { String s = "123" ; System . out . println ( combinedSum ( 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 object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier))))))))
static String sumBaseB ( String a , String b , int base ) { int len_a , len_b ; len_a = a . length ( ) ; len_b = b . length ( ) ; String sum , s ; s = "" ; sum = "" ; int diff ; diff = Math . abs ( len_a - len_b ) ; for ( int i = 1 ; i <= diff ; i ++ ) s += "0" ; if ( len_a < len_b ) a = s + a ; else b = s + b ; int curr , carry = 0 ; for ( int i = Math . max ( len_a , len_b ) - 1 ; i > - 1 ; i -- ) { curr = carry + ( a . charAt ( i ) - '0' ) + ( b . charAt ( i ) - '0' ) ; carry = curr / base ; curr = curr % base ; sum = ( char ) ( curr + '0' ) + sum ; } if ( carry > 0 ) sum = ( char ) ( carry + '0' ) + sum ; return sum ; }	static String sumBaseB ( String a , String b , int base ) { int len_a , len_b ; len_a = a . length ( ) ; len_b = b . length ( ) ; String sum , s ; s = " " ; sum = " " ; int diff ; diff = Math . abs ( len_a - len_b ) ; for ( int i = 1 ; i <= diff ; i ++ ) s += "0" ; if ( len_a < len_b ) a = s + a ; else b = s + b ; int curr , carry = 0 ; for ( int i = Math . max ( len_a , len_b ) - 1 ; i > - 1 ; i -- ) { curr = carry + ( a . charAt ( i ) - '0' ) + ( b . charAt ( i ) - '0' ) ; carry = curr / base ; curr = curr % base ; sum = ( char ) ( curr + '0' ) + sum ; } if ( carry > 0 ) sum = ( char ) ( carry + '0' ) + sum ; return sum ; }	(method_declaration (modifiers) type: (type_identifier) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier)) (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)) declarator: (variable_declarator name: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier)) declarator: (variable_declarator name: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (string_literal))) (expression_statement (assignment_expression left: (identifier) right: (string_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (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 (assignment_expression left: (identifier) right: (string_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) alternative: (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))) right: (decimal_integer_literal)))) condition: (binary_expression left: (identifier) right: (unary_expression operand: (decimal_integer_literal))) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) right: (character_literal)))) right: (parenthesized_expression (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) right: (character_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (integral_type) value: (parenthesized_expression (binary_expression left: (identifier) right: (character_literal)))) right: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) consequence: (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (integral_type) value: (parenthesized_expression (binary_expression left: (identifier) right: (character_literal)))) right: (identifier))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { String a , b , sum ; int base ; a = "123" ; b = "234" ; base = 6 ; sum = sumBaseB ( a , b , base ) ; System . out . println ( sum ) ; }	public static void main ( String [ ] args ) { String a , b , sum ; int base ; a = "123" ; b = "234" ; base = 6 ; sum = sumBaseB ( a , b , base ) ; System . out . println ( sum ) ; }	(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)) declarator: (variable_declarator name: (identifier)) declarator: (variable_declarator name: (identifier))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (string_literal))) (expression_statement (assignment_expression left: (identifier) right: (string_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) (identifier) (identifier))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (identifier))))))
static int minAbsDiff ( int n ) { int left = ( int ) Math . pow ( 2 , ( int ) ( Math . log ( n ) / Math . log ( 2 ) ) ) ; int right = left * 2 ; return Math . min ( ( n - left ) , ( right - n ) ) ; }	static int minAbsDiff ( int n ) { int left = ( int ) Math . pow ( 2 , ( int ) ( Math . log ( n ) / Math . log ( 2 ) ) ) ; int right = left * 2 ; return Math . min ( ( n - left ) , ( right - n ) ) ; }	(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: (cast_expression type: (integral_type) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal) (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))))))))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (return_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))
public static void main ( String args [ ] ) { int n = 15 ; System . out . println ( minAbsDiff ( n ) ) ; }	public static void main ( String args [ ] ) { int n = 15 ; System . out . println ( minAbsDiff ( 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: (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 Node insertNode ( Node start , int value ) { if ( start == null ) { Node new_node = new Node ( ) ; new_node . data = value ; new_node . next = new_node . prev = new_node ; start = new_node ; return new_node ; } Node last = ( start ) . prev ; Node new_node = new Node ( ) ; new_node . data = value ; new_node . next = start ; ( start ) . prev = new_node ; new_node . prev = last ; last . next = new_node ; return start ; }	static Node insertNode ( Node start , int value ) { if ( start == null ) { Node new_node = new Node ( ) ; new_node . data = value ; new_node . next = new_node . prev = new_node ; start = new_node ; return new_node ; } Node last = ( start ) . prev ; Node new_node = new Node ( ) ; new_node . data = value ; new_node . next = start ; ( start ) . prev = new_node ; new_node . prev = last ; last . next = new_node ; return start ; }	(method_declaration (modifiers) type: (type_identifier) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (null_literal))) consequence: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (return_statement (identifier)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (field_access object: (parenthesized_expression (identifier)) field: (identifier)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (field_access object: (parenthesized_expression (identifier)) field: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) (return_statement (identifier))))
static void displayList ( Node start ) { Node temp = start ; while ( temp . next != start ) { System . out . printf ( "%d " , temp . data ) ; temp = temp . next ; } System . out . printf ( "%d " , temp . data ) ; }	static void displayList ( Node start ) { Node temp = start ; while ( temp . next != start ) { System . out . printf ( " % d ▁ " , temp . data ) ; temp = temp . next ; } System . out . printf ( " % d ▁ " , temp . data ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (type_identifier) name: (identifier))) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (identifier))) (while_statement condition: (parenthesized_expression (binary_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal) (field_access object: (identifier) field: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (field_access object: (identifier) field: (identifier)))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal) (field_access object: (identifier) field: (identifier)))))))
static int searchList ( Node start , int search ) { Node temp = start ; int count = 0 , flag = 0 , value ; if ( temp == null ) return - 1 ; else { while ( temp . next != start ) { count ++ ; if ( temp . data == search ) { flag = 1 ; count -- ; break ; } temp = temp . next ; } if ( temp . data == search ) { count ++ ; flag = 1 ; } if ( flag == 1 ) System . out . println ( "\n" + search + " found at location " + count ) ; else System . out . println ( "\n" + search + " not found" ) ; } return - 1 ; }	static int searchList ( Node start , int search ) { Node temp = start ; int count = 0 , flag = 0 , value ; if ( temp == null ) return - 1 ; else { while ( temp . next != start ) { count ++ ; if ( temp . data == search ) { flag = 1 ; count -- ; break ; } temp = temp . next ; } if ( temp . data == search ) { count ++ ; flag = 1 ; } if ( flag == 1 ) System . out . println ( " \n " + search + " ▁ found ▁ at ▁ location ▁ " + count ) ; else System . out . println ( " \n " + search + " ▁ not ▁ found " ) ; } return - 1 ; }	(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: (type_identifier) declarator: (variable_declarator name: (identifier) value: (identifier))) (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))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (null_literal))) consequence: (return_statement (unary_expression operand: (decimal_integer_literal))) alternative: (block (while_statement condition: (parenthesized_expression (binary_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) body: (block (expression_statement (update_expression (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (expression_statement (update_expression (identifier))) (break_statement))) (expression_statement (assignment_expression left: (identifier) right: (field_access object: (identifier) field: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (field_access object: (identifier) field: (identifier)) right: (identifier))) consequence: (block (expression_statement (update_expression (identifier))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))))) (if_statement condition: (parenthesized_expression (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: (binary_expression left: (binary_expression left: (string_literal) right: (identifier)) right: (string_literal)) right: (identifier))))) alternative: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (string_literal) right: (identifier)) right: (string_literal)))))))) (return_statement (unary_expression operand: (decimal_integer_literal)))))
public static void main ( String args [ ] ) { Node start = null ; start = insertNode ( start , 4 ) ; start = insertNode ( start , 5 ) ; start = insertNode ( start , 7 ) ; start = insertNode ( start , 8 ) ; start = insertNode ( start , 6 ) ; System . out . printf ( "Created circular doubly linked list is: " ) ; displayList ( start ) ; searchList ( start , 5 ) ; }	public static void main ( String args [ ] ) { Node start = null ; start = insertNode ( start , 4 ) ; start = insertNode ( start , 5 ) ; start = insertNode ( start , 7 ) ; start = insertNode ( start , 8 ) ; start = insertNode ( start , 6 ) ; System . out . printf ( " Created ▁ circular ▁ doubly ▁ linked ▁ list ▁ is : ▁ " ) ; displayList ( start ) ; searchList ( start , 5 ) ; }	(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: (type_identifier) declarator: (variable_declarator name: (identifier) value: (null_literal))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal))))))
static void pattern ( int nos , int i , int space ) { char prt = '$' ; int s , j ; for ( s = nos ; s >= 1 ; s -- ) { System . out . print ( " " ) ; } for ( j = 1 ; j <= i ; j ++ ) { if ( space != 0 ) { if ( i == 9 && j == 1 ) { continue ; } } if ( i == 1 \|\| i == 9 ) { System . out . print ( prt + "" ) ; } else if ( j == 1 \|\| j == i ) { System . out . print ( prt + "" ) ; } else { System . out . print ( " " ) ; } } }	static void pattern ( int nos , int i , int space ) { char prt = ' $ ' ; int s , j ; for ( s = nos ; s >= 1 ; s -- ) { System . out . print ( " ▁ ▁ " ) ; } for ( j = 1 ; j <= i ; j ++ ) { if ( space != 0 ) { if ( i == 9 && j == 1 ) { continue ; } } if ( i == 1 \|\| i == 9 ) { System . out . print ( prt + " " ) ; } else if ( j == 1 \|\| j == i ) { System . out . print ( prt + " " ) ; } else { System . out . print ( " ▁ ▁ " ) ; } } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) 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: (character_literal))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier)) declarator: (variable_declarator name: (identifier))) (for_statement init: (assignment_expression left: (identifier) right: (identifier)) condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) update: (update_expression (identifier)) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))))) (for_statement init: (assignment_expression left: (identifier) right: (decimal_integer_literal)) condition: (binary_expression left: (identifier) right: (identifier)) update: (update_expression (identifier)) body: (block (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: (binary_expression left: (identifier) right: (decimal_integer_literal)))) consequence: (block (continue_statement))))) (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: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) 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: (identifier)))) consequence: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (string_literal)))))) alternative: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (string_literal)))))))))))
public static void main ( String args [ ] ) { int i , nos = 0 , nosp = - 1 , nbsp = - 1 ; for ( i = 9 ; i >= 1 ; i -= 2 ) { pattern ( nos , i , 0 ) ; pattern ( nosp , i , 1 ) ; pattern ( nbsp , i , 1 ) ; System . out . println ( ) ; nos ++ ; nosp = nosp + 2 ; nbsp = nbsp + 2 ; } nos = 3 ; nosp = 5 ; nbsp = 5 ; for ( i = 3 ; i <= 9 ; i += 2 ) { pattern ( nos , i , 0 ) ; pattern ( nosp , i , 1 ) ; pattern ( nbsp , i , 1 ) ; System . out . println ( ) ; nos -- ; nosp = nosp - 2 ; nbsp = nbsp - 2 ; } }	public static void main ( String args [ ] ) { int i , nos = 0 , nosp = - 1 , nbsp = - 1 ; for ( i = 9 ; i >= 1 ; i -= 2 ) { pattern ( nos , i , 0 ) ; pattern ( nosp , i , 1 ) ; pattern ( nbsp , i , 1 ) ; System . out . println ( ) ; nos ++ ; nosp = nosp + 2 ; nbsp = nbsp + 2 ; } nos = 3 ; nosp = 5 ; nbsp = 5 ; for ( i = 3 ; i <= 9 ; i += 2 ) { pattern ( nos , i , 0 ) ; pattern ( nosp , i , 1 ) ; pattern ( nbsp , i , 1 ) ; System . out . println ( ) ; nos -- ; nosp = nosp - 2 ; nbsp = nbsp - 2 ; } }	(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)) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (decimal_integer_literal))) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (decimal_integer_literal)))) (for_statement init: (assignment_expression left: (identifier) right: (decimal_integer_literal)) condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) update: (assignment_expression left: (identifier) right: (decimal_integer_literal)) body: (block (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list))) (expression_statement (update_expression (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (expression_statement (assignment_expression left: (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: (decimal_integer_literal))) (expression_statement (assignment_expression left: (identifier) right: (decimal_integer_literal))) (for_statement init: (assignment_expression left: (identifier) right: (decimal_integer_literal)) condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) update: (assignment_expression left: (identifier) right: (decimal_integer_literal)) body: (block (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (decimal_integer_literal)))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list))) (expression_statement (update_expression (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal))))))))
static void SieveOfEratosthenes ( int n ) { for ( int i = 1 ; i <= n ; i ++ ) prime [ i ] = true ; prime [ 1 ] = false ; for ( int p = 2 ; p * p <= n ; p ++ ) { if ( prime [ p ] == true ) { for ( int i = p * 2 ; i <= n ; i += p ) prime [ i ] = false ; } } }	static void SieveOfEratosthenes ( int n ) { for ( int i = 1 ; i <= n ; i ++ ) prime [ i ] = true ; prime [ 1 ] = false ; for ( int p = 2 ; p * p <= n ; p ++ ) { if ( prime [ p ] == true ) { for ( int i = p * 2 ; i <= n ; i += p ) prime [ i ] = false ; } } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (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: (array_access array: (identifier) index: (identifier)) right: (true)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (decimal_integer_literal)) right: (false))) (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: (identifier) right: (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: (block (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: (identifier)) update: (assignment_expression left: (identifier) right: (identifier)) body: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (false))))))))))
static void sortedArray ( int arr [ ] , int n ) { SieveOfEratosthenes ( 100005 ) ; Vector < Integer > v = new Vector < Integer > ( ) ; for ( int i = 0 ; i < n ; ++ i ) { if ( prime [ arr [ i ] ] == false ) v . add ( arr [ i ] ) ; } Collections . sort ( v ) ; int j = 0 ; for ( int i = 0 ; i < n ; ++ i ) { if ( prime [ arr [ i ] ] == true ) System . out . print ( arr [ i ] + " " ) ; else { System . out . print ( v . get ( j ) + " " ) ; j ++ ; } } }	static void sortedArray ( int arr [ ] , int n ) { SieveOfEratosthenes ( 100005 ) ; Vector < Integer > v = new Vector < Integer > ( ) ; for ( int i = 0 ; i < n ; ++ i ) { if ( prime [ arr [ i ] ] == false ) v . add ( arr [ i ] ) ; } Collections . sort ( v ) ; int j = 0 ; for ( int i = 0 ; i < n ; ++ i ) { if ( prime [ arr [ i ] ] == true ) System . out . print ( arr [ i ] + " ▁ " ) ; else { System . out . print ( v . get ( j ) + " ▁ " ) ; j ++ ; } } }	(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 (expression_statement (method_invocation name: (identifier) arguments: (argument_list (decimal_integer_literal)))) (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 (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (array_access array: (identifier) index: (identifier))) right: (false))) consequence: (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (identifier)))))))) (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 (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (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: (array_access array: (identifier) index: (identifier)) right: (string_literal))))) alternative: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))) right: (string_literal))))) (expression_statement (update_expression (identifier)))))))))
public static void main ( String args [ ] ) { int n = 6 ; int arr [ ] = { 100 , 11 , 500 , 2 , 17 , 1 }; sortedArray ( arr , n ) ; }	public static void main ( String args [ ] ) { int n = 6 ; int arr [ ] = { 100 , 11 , 500 , 2 , 17 , 1 } ; sortedArray ( 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: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (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)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier))))))
static int msbPos ( int n ) { int pos = 0 ; while ( n != 0 ) { pos ++ ; n = n >> 1 ; } return pos ; }	static int msbPos ( int n ) { int pos = 0 ; while ( n != 0 ) { pos ++ ; n = n >> 1 ; } return pos ; }	(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: (decimal_integer_literal))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) body: (block (expression_statement (update_expression (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (return_statement (identifier))))
static int josephify ( int n ) { int position = msbPos ( n ) ; int j = 1 << ( position - 1 ) ; n = n ^ j ; n = n << 1 ; n = n \| 1 ; return n ; }	static int josephify ( int n ) { int position = msbPos ( n ) ; int j = 1 << ( position - 1 ) ; n = n ^ j ; n = n << 1 ; n = n \| 1 ; return n ; }	(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: (method_invocation name: (identifier) arguments: (argument_list (identifier))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (decimal_integer_literal) right: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) (return_statement (identifier))))