Datasets:

ziwenyd
/

avatar-functions

Dataset card Viewer Files Files and versions Community

Split (2)

train · 17.4k rows

code stringlengths 31 2.27k	tokenized_code stringlengths 30 1.69k	sexp stringlengths 115 9.43k
static IntStream INS ( int n ) { return REPS ( n ) . map ( i -> getInt ( ) ) ; }	static IntStream INS ( int n ) { return REPS ( n ) . map ( i -> getInt ( ) ) ; }	(method_declaration (modifiers) type: (type_identifier) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier))) body: (block (return_statement (method_invocation object: (method_invocation name: (identifier) arguments: (argument_list (identifier))) name: (identifier) arguments: (argument_list (lambda_expression parameters: (identifier) body: (method_invocation name: (identifier) arguments: (argument_list))))))))
static int getInt ( ) { return Integer . parseInt ( s . next ( ) ) ; }	static int getInt ( ) { return Integer . parseInt ( s . next ( ) ) ; }	(method_declaration (modifiers) type: (integral_type) name: (identifier) parameters: (formal_parameters) body: (block (return_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))))
public static void main ( String [ ] $ ) { int a = getInt ( ) , b = getInt ( ) , c = getInt ( ) , d = getInt ( ) , e = getInt ( ) , f = getInt ( ) ; int rw = 100 * a , rs = 0 ; double max = 0 ; for ( int i = 0 ; true ; ++ i ) { int va = 100 * a * i ; if ( va > f ) break ; for ( int j = 0 ; true ; ++ j ) { int vb = 100 * b * j ; if ( va + vb > f ) break ; for ( int k = 0 ; true ; ++ k ) { int vc = c * k ; if ( va + vb + vc > f ) break ; for ( int l = 0 ; true ; ++ l ) { int vd = d * l ; if ( va + vb + vc + vd > f ) break ; if ( max < calc ( va + vb , vc + vd , e ) ) { max = calc ( va + vb , vc + vd , e ) ; rw = va + vb ; rs = vc + vd ; } } } } } System . out . println ( rw + rs + " " + rs ) ; }	public static void main ( String [ ] $ ) { int a = getInt ( ) , b = getInt ( ) , c = getInt ( ) , d = getInt ( ) , e = getInt ( ) , f = getInt ( ) ; int rw = 100 * a , rs = 0 ; double max = 0 ; for ( int i = 0 ; true ; ++ i ) { int va = 100 * a * i ; if ( va > f ) break ; for ( int j = 0 ; true ; ++ j ) { int vb = 100 * b * j ; if ( va + vb > f ) break ; for ( int k = 0 ; true ; ++ k ) { int vc = c * k ; if ( va + vb + vc > f ) break ; for ( int l = 0 ; true ; ++ l ) { int vd = d * l ; if ( va + vb + vc + vd > f ) break ; if ( max < calc ( va + vb , vc + vd , e ) ) { max = calc ( va + vb , vc + vd , e ) ; rw = va + vb ; rs = vc + vd ; } } } } } System . out . println ( rw + rs + " ▁ " + rs ) ; }	(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: (method_invocation name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (decimal_integer_literal) right: (identifier))) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (floating_point_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: (true) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (decimal_integer_literal) right: (identifier)) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (break_statement)) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (true) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (decimal_integer_literal) right: (identifier)) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier))) consequence: (break_statement)) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (true) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier))) consequence: (break_statement)) (for_statement init: (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) condition: (true) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) right: (identifier))) consequence: (break_statement)) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)) (binary_expression left: (identifier) right: (identifier)) (identifier))))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)) (binary_expression left: (identifier) right: (identifier)) (identifier))))) (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 (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (string_literal)) right: (identifier)))))))
private static double calc ( int w , int s , int e ) { double r = w == 0 ? 0 : 100.0 * s / ( w + s ) ; return w / 100 * e < s ? 0 : r ; }	private static double calc ( int w , int s , int e ) { double r = w == 0 ? 0 : 100.0 * s / ( w + s ) ; return w / 100 * e < s ? 0 : r ; }	(method_declaration (modifiers) type: (floating_point_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: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (ternary_expression condition: (binary_expression left: (identifier) right: (decimal_integer_literal)) consequence: (decimal_integer_literal) alternative: (binary_expression left: (binary_expression left: (decimal_floating_point_literal) right: (identifier)) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) (return_statement (ternary_expression condition: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier)) right: (identifier)) consequence: (decimal_integer_literal) alternative: (identifier)))))
public static void main ( String [ ] args ) { InputStream inputStream = System . in ; OutputStream outputStream = System . out ; Scanner in = new Scanner ( inputStream ) ; PrintWriter out = new PrintWriter ( outputStream ) ; TaskC solver = new TaskC ( ) ; solver . solve ( 1 , in , out ) ; out . close ( ) ; }	public static void main ( String [ ] args ) { InputStream inputStream = System . in ; OutputStream outputStream = System . out ; Scanner in = new Scanner ( inputStream ) ; PrintWriter out = new PrintWriter ( outputStream ) ; TaskC solver = new TaskC ( ) ; solver . solve ( 1 , in , out ) ; out . close ( ) ; }	(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: (field_access object: (identifier) field: (identifier)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (field_access object: (identifier) field: (identifier)))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (identifier))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (identifier))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal) (identifier) (identifier)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int A = sc . nextInt ( ) ; int B = sc . nextInt ( ) ; int C = sc . nextInt ( ) ; int D = sc . nextInt ( ) ; int E = sc . nextInt ( ) ; int F = sc . nextInt ( ) ; Set < Integer > waterSet = new HashSet < > ( ) ; Set < Integer > sugarSet = new HashSet < > ( ) ; createSugar ( sugarSet , C , D , F ) ; createWater ( waterSet , A , B , F ) ; double maxRatio = - 1 ; int resultSugar = - 1 ; int resultWater = - 1 ; for ( int water : waterSet ) { for ( int sugar : sugarSet ) { if ( ( water + sugar ) <= F && sugar <= ( water / 100 ) * E ) { double ratio = ( ( double ) ( 100 * sugar ) ) / ( water + sugar ) ; if ( ratio > maxRatio ) { maxRatio = ( ( double ) ( 100 * sugar ) ) / ( water + sugar ) ; resultSugar = sugar ; resultWater = water ; } } } } System . out . println ( resultSugar + resultWater + " " + resultSugar ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int A = sc . nextInt ( ) ; int B = sc . nextInt ( ) ; int C = sc . nextInt ( ) ; int D = sc . nextInt ( ) ; int E = sc . nextInt ( ) ; int F = sc . nextInt ( ) ; Set < Integer > waterSet = new HashSet < > ( ) ; Set < Integer > sugarSet = new HashSet < > ( ) ; createSugar ( sugarSet , C , D , F ) ; createWater ( waterSet , A , B , F ) ; double maxRatio = - 1 ; int resultSugar = - 1 ; int resultWater = - 1 ; for ( int water : waterSet ) { for ( int sugar : sugarSet ) { if ( ( water + sugar ) <= F && sugar <= ( water / 100 ) * E ) { double ratio = ( ( double ) ( 100 * sugar ) ) / ( water + sugar ) ; if ( ratio > maxRatio ) { maxRatio = ( ( double ) ( 100 * sugar ) ) / ( water + sugar ) ; resultSugar = sugar ; resultWater = water ; } } } } System . out . println ( resultSugar + resultWater + " ▁ " + resultSugar ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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)))) (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 name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (decimal_integer_literal)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (decimal_integer_literal)))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (identifier)) right: (binary_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (identifier))))) consequence: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (cast_expression type: (floating_point_type) value: (parenthesized_expression (binary_expression left: (decimal_integer_literal) right: (identifier))))) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (cast_expression type: (floating_point_type) value: (parenthesized_expression (binary_expression left: (decimal_integer_literal) right: (identifier))))) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (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: (identifier) right: (identifier)) right: (string_literal)) right: (identifier)))))))
private static void createWater ( Set < Integer > waterSet , int A , int B , int F ) { for ( int i = 0 ; i < F ; i ++ ) { for ( int j = 0 ; j < F ; j ++ ) { int water = A * 100 * i + B * 100 * j ; if ( water != 0 && water < F ) waterSet . add ( water ) ; } } }	private static void createWater ( Set < Integer > waterSet , int A , int B , int F ) { for ( int i = 0 ; i < F ; i ++ ) { for ( int j = 0 ; j < F ; j ++ ) { int water = A * 100 * i + B * 100 * j ; if ( water != 0 && water < F ) waterSet . add ( water ) ; } } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (generic_type (type_identifier) (type_arguments (type_identifier))) 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 (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 (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: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier)) right: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (binary_expression left: (identifier) right: (identifier)))) consequence: (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))))))))))
private static void createSugar ( Set < Integer > sugarSet , int C , int D , int F ) { for ( int i = 0 ; i < F ; i ++ ) { for ( int j = 0 ; j < F ; j ++ ) { int sugar = C * i + D * j ; if ( sugar < F ) sugarSet . add ( sugar ) ; } } }	private static void createSugar ( Set < Integer > sugarSet , int C , int D , int F ) { for ( int i = 0 ; i < F ; i ++ ) { for ( int j = 0 ; j < F ; j ++ ) { int sugar = C * i + D * j ; if ( sugar < F ) sugarSet . add ( sugar ) ; } } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (generic_type (type_identifier) (type_arguments (type_identifier))) 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 (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 (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: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (identifier) right: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))))))))))
public static void main ( String [ ] args ) { Main m = new Main ( ) ; m . read ( ) ; m . solve ( ) ; }	public static void main ( String [ ] args ) { Main m = new Main ( ) ; m . read ( ) ; m . solve ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
private static boolean isGreater ( int p , int q , int pp , int qq ) { p = qq ; pp = q ; return p > pp ; }	private static boolean isGreater ( int p , int q , int pp , int qq ) { p = qq ; pp = q ; return p > pp ; }	(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)) (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (integral_type) name: (identifier))) body: (block (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (return_statement (binary_expression left: (identifier) right: (identifier)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int A = sc . nextInt ( ) ; int B = sc . nextInt ( ) ; int C = sc . nextInt ( ) ; int D = sc . nextInt ( ) ; int E = sc . nextInt ( ) ; int F = sc . nextInt ( ) ; int ansX = 100 * A ; int ansY = 0 ; int maxP = 0 ; int maxQ = 1 ; for ( int ai = 0 ; ai * 100 <= F ; ai += A ) { int a = ai * 100 ; for ( int bi = 0 ; a + 100 * bi <= F ; bi += B ) { int b = bi * 100 ; for ( int c = 0 ; a + b + c <= F ; c += C ) { for ( int d = 0 ; a + b + c + d <= F ; d += D ) { if ( ( ai + bi ) * E < c + d ) { continue ; } int water = a + b ; int sugar = c + d ; if ( isGreater ( sugar * 100 , water + sugar , maxP , maxQ ) ) { maxP = sugar * 100 ; maxQ = water + sugar ; ansX = water + sugar ; ansY = sugar ; } } } } } System . out . println ( ansX + " " + ansY ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int A = sc . nextInt ( ) ; int B = sc . nextInt ( ) ; int C = sc . nextInt ( ) ; int D = sc . nextInt ( ) ; int E = sc . nextInt ( ) ; int F = sc . nextInt ( ) ; int ansX = 100 * A ; int ansY = 0 ; int maxP = 0 ; int maxQ = 1 ; for ( int ai = 0 ; ai * 100 <= F ; ai += A ) { int a = ai * 100 ; for ( int bi = 0 ; a + 100 * bi <= F ; bi += B ) { int b = bi * 100 ; for ( int c = 0 ; a + b + c <= F ; c += C ) { for ( int d = 0 ; a + b + c + d <= F ; d += D ) { if ( ( ai + bi ) * E < c + d ) { continue ; } int water = a + b ; int sugar = c + d ; if ( isGreater ( sugar * 100 , water + sugar , maxP , maxQ ) ) { maxP = sugar * 100 ; maxQ = water + sugar ; ansX = water + sugar ; ansY = sugar ; } } } } } System . out . println ( ansX + " ▁ " + ansY ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (decimal_integer_literal) right: (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))) (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: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier)) update: (assignment_expression left: (identifier) right: (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (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: (binary_expression left: (identifier) right: (binary_expression left: (decimal_integer_literal) right: (identifier))) right: (identifier)) update: (assignment_expression left: (identifier) right: (identifier)) body: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (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: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) update: (assignment_expression left: (identifier) right: (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: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) right: (identifier)) update: (assignment_expression left: (identifier) right: (identifier)) body: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (identifier)) right: (binary_expression left: (identifier) right: (identifier)))) consequence: (block (continue_statement))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (identifier)))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (method_invocation name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal)) (binary_expression left: (identifier) right: (identifier)) (identifier) (identifier)))) consequence: (block (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)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))))))))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (identifier) right: (string_literal)) right: (identifier)))))))
public static void main ( String [ ] args ) { int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] stones = new int [ N + 1 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int start = sc . nextInt ( ) - 1 ; int end = sc . nextInt ( ) ; stones [ start ] += 1 ; stones [ end ] += - 1 ; } for ( int i = 0 ; i < N ; i ++ ) { if ( i > 0 ) stones [ i ] += stones [ i - 1 ] ; } StringBuilder sb = new StringBuilder ( ) ; for ( int i = 0 ; i < N ; i ++ ) { sb . append ( stones [ i ] % 2 == 0 ? '0' : '1' ) ; } System . out . println ( sb . toString ( ) ) ; }	public static void main ( String [ ] args ) { int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] stones = new int [ N + 1 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int start = sc . nextInt ( ) - 1 ; int end = sc . nextInt ( ) ; stones [ start ] += 1 ; stones [ end ] += - 1 ; } for ( int i = 0 ; i < N ; i ++ ) { if ( i > 0 ) stones [ i ] += stones [ i - 1 ] ; } StringBuilder sb = new StringBuilder ( ) ; for ( int i = 0 ; i < N ; i ++ ) { sb . append ( stones [ i ] % 2 == 0 ? '0' : '1' ) ; } System . out . println ( sb . toString ( ) ) ; }	(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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_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: (block (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)) 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)))) (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: (unary_expression operand: (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: (identifier) right: (decimal_integer_literal))) consequence: (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal)))))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (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 (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (ternary_expression condition: (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal)) right: (decimal_integer_literal)) consequence: (character_literal) alternative: (character_literal))))))) (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)))))))
public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int N = scanner . nextInt ( ) ; int Q = scanner . nextInt ( ) ; int [ ] l = new int [ Q + 1 ] ; int [ ] r = new int [ Q + 1 ] ; int [ ] field = new int [ N + 2 ] ; int [ ] sum = new int [ N + 2 ] ; sum [ 0 ] = 0 ; for ( int i = 1 ; i <= N ; i ++ ) { field [ i ] = 0 ; } for ( int i = 0 ; i < Q ; i ++ ) { l [ i ] = scanner . nextInt ( ) ; r [ i ] = scanner . nextInt ( ) ; } for ( int i = 0 ; i < Q ; i ++ ) { field [ l [ i ] ] += 1 ; field [ r [ i ] + 1 ] += - 1 ; } for ( int i = 1 ; i <= N ; i ++ ) { sum [ i ] = sum [ i - 1 ] + field [ i ] ; } for ( int i = 1 ; i <= N ; i ++ ) { if ( sum [ i ] % 2 == 0 ) { System . out . print ( 0 ) ; } else { System . out . print ( 1 ) ; } } System . out . println ( ) ; }	public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int N = scanner . nextInt ( ) ; int Q = scanner . nextInt ( ) ; int [ ] l = new int [ Q + 1 ] ; int [ ] r = new int [ Q + 1 ] ; int [ ] field = new int [ N + 2 ] ; int [ ] sum = new int [ N + 2 ] ; sum [ 0 ] = 0 ; for ( int i = 1 ; i <= N ; i ++ ) { field [ i ] = 0 ; } for ( int i = 0 ; i < Q ; i ++ ) { l [ i ] = scanner . nextInt ( ) ; r [ i ] = scanner . nextInt ( ) ; } for ( int i = 0 ; i < Q ; i ++ ) { field [ l [ i ] ] += 1 ; field [ r [ i ] + 1 ] += - 1 ; } for ( int i = 1 ; i <= N ; i ++ ) { sum [ i ] = sum [ i - 1 ] + field [ i ] ; } for ( int i = 1 ; i <= N ; i ++ ) { if ( sum [ i ] % 2 == 0 ) { System . out . print ( 0 ) ; } else { System . out . print ( 1 ) ; } } System . out . println ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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 (binary_expression left: (identifier) right: (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_expr (binary_expression left: (identifier) right: (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_expr (binary_expression left: (identifier) right: (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_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: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (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: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (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 (expression_statement (assignment_expression left: (array_access array: (identifier) index: (array_access array: (identifier) index: (identifier))) right: (decimal_integer_literal))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))) right: (unary_expression operand: (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: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (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: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (decimal_integer_literal))))) alternative: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (decimal_integer_literal)))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] cum = new int [ N + 2 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int l = sc . nextInt ( ) ; int r = sc . nextInt ( ) ; cum [ l ] += 1 ; cum [ r + 1 ] -= 1 ; } for ( int n = 1 ; n < N + 2 ; n ++ ) { cum [ n ] += cum [ n - 1 ] ; } for ( int n = 1 ; n <= N ; n ++ ) { if ( cum [ n ] % 2 == 0 ) { out . print ( 0 ) ; } else { out . print ( 1 ) ; } } out . println ( ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] cum = new int [ N + 2 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int l = sc . nextInt ( ) ; int r = sc . nextInt ( ) ; cum [ l ] += 1 ; cum [ r + 1 ] -= 1 ; } for ( int n = 1 ; n < N + 2 ; n ++ ) { cum [ n ] += cum [ n - 1 ] ; } for ( int n = 1 ; n <= N ; n ++ ) { if ( cum [ n ] % 2 == 0 ) { out . print ( 0 ) ; } else { out . print ( 1 ) ; } } out . println ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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 (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: (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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: (binary_expression left: (identifier) right: (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: (binary_expression left: (identifier) right: (decimal_integer_literal))) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (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: (block (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (block (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal))))) alternative: (block (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (decimal_integer_literal)))))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] a = new int [ N + 1 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int start = sc . nextInt ( ) ; int end = sc . nextInt ( ) ; a [ start - 1 ] ++ ; a [ end ] -- ; } int [ ] b = new int [ N ] ; b [ 0 ] = a [ 0 ] ; for ( int i = 1 ; i < N ; i ++ ) { b [ i ] = b [ i - 1 ] + a [ i ] ; } for ( int i : b ) { System . out . print ( ( i % 2 == 0 ) ? 0 : 1 ) ; } System . out . println ( ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int Q = sc . nextInt ( ) ; int [ ] a = new int [ N + 1 ] ; for ( int i = 0 ; i < Q ; i ++ ) { int start = sc . nextInt ( ) ; int end = sc . nextInt ( ) ; a [ start - 1 ] ++ ; a [ end ] -- ; } int [ ] b = new int [ N ] ; b [ 0 ] = a [ 0 ] ; for ( int i = 1 ; i < N ; i ++ ) { b [ i ] = b [ i - 1 ] + a [ i ] ; } for ( int i : b ) { System . out . print ( ( i % 2 == 0 ) ? 0 : 1 ) ; } System . out . println ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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 (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: (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (update_expression (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))))) (expression_statement (update_expression (array_access array: (identifier) index: (identifier)))))) (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 (identifier))))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (decimal_integer_literal)) right: (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 (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (binary_expression left: (array_access array: (identifier) index: (binary_expression left: (identifier) right: (decimal_integer_literal))) right: (array_access array: (identifier) index: (identifier))))))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (ternary_expression condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (decimal_integer_literal) alternative: (decimal_integer_literal))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int N = scanner . nextInt ( ) ; int Q = scanner . nextInt ( ) ; int [ ] left = new int [ Q ] ; int [ ] right = new int [ Q ] ; for ( int i = 0 ; i < Q ; i ++ ) { left [ i ] = scanner . nextInt ( ) ; right [ i ] = scanner . nextInt ( ) ; } Arrays . sort ( left ) ; Arrays . sort ( right ) ; long count = 0 ; int li = 0 ; int ri = 0 ; StringBuilder sb = new StringBuilder ( ) ; for ( int i = 1 ; i <= N ; i ++ ) { while ( li < Q && left [ li ] == i ) { li ++ ; count ++ ; } sb . append ( count % 2 == 0 ? '0' : '1' ) ; while ( ri < Q && right [ ri ] == i ) { ri ++ ; count -- ; } } System . out . println ( sb . toString ( ) ) ; }	public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int N = scanner . nextInt ( ) ; int Q = scanner . nextInt ( ) ; int [ ] left = new int [ Q ] ; int [ ] right = new int [ Q ] ; for ( int i = 0 ; i < Q ; i ++ ) { left [ i ] = scanner . nextInt ( ) ; right [ i ] = scanner . nextInt ( ) ; } Arrays . sort ( left ) ; Arrays . sort ( right ) ; long count = 0 ; int li = 0 ; int ri = 0 ; StringBuilder sb = new StringBuilder ( ) ; for ( int i = 1 ; i <= N ; i ++ ) { while ( li < Q && left [ li ] == i ) { li ++ ; count ++ ; } sb . append ( count % 2 == 0 ? '0' : '1' ) ; while ( ri < Q && right [ ri ] == i ) { ri ++ ; count -- ; } } System . out . println ( sb . toString ( ) ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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 (identifier))))) (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 (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) 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 (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))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (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: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier)))) body: (block (expression_statement (update_expression (identifier))) (expression_statement (update_expression (identifier))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (ternary_expression condition: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal)) consequence: (character_literal) alternative: (character_literal))))) (while_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier)))) body: (block (expression_statement (update_expression (identifier))) (expression_statement (update_expression (identifier))))))) (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)))))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; int max = 0 ; int sum = 0 ; for ( int i = 0 ; i < n ; i ++ ) { int p = sc . nextInt ( ) ; max = Math . max ( max , p ) ; sum += p ; } System . out . println ( sum -= max / 2 ) ; sc . close ( ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; int max = 0 ; int sum = 0 ; for ( int i = 0 ; i < n ; i ++ ) { int p = sc . nextInt ( ) ; max = Math . max ( max , p ) ; sum += p ; } System . out . println ( sum -= max / 2 ) ; sc . close ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (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)))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > list = new ArrayList < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { list . add ( sc . nextInt ( ) ) ; } Collections . sort ( list ) ; int sum = 0 ; for ( int i = 0 ; i < n - 1 ; i ++ ) { sum += list . get ( i ) ; } System . out . println ( sum += list . get ( n - 1 ) / 2 ) ; sc . close ( ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > list = new ArrayList < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { list . add ( sc . nextInt ( ) ) ; } Collections . sort ( list ) ; int sum = 0 ; for ( int i = 0 ; i < n - 1 ; i ++ ) { sum += list . get ( i ) ; } System . out . println ( sum += list . get ( n - 1 ) / 2 ) ; sc . close ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (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 (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (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: (binary_expression left: (identifier) right: (decimal_integer_literal))) update: (update_expression (identifier)) body: (block (expression_statement (assignment_expression left: (identifier) right: (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 (assignment_expression left: (identifier) right: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (decimal_integer_literal)))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) throws IOException { BufferedReader bf = new BufferedReader ( new InputStreamReader ( System . in ) ) ; int N = Integer . parseInt ( bf . readLine ( ) ) , max = 0 , sum = 0 ; int [ ] p = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { p [ i ] = Integer . parseInt ( bf . readLine ( ) ) ; sum += p [ i ] ; if ( max < p [ i ] ) { max = p [ i ] ; } } sum -= max / 2 ; System . out . println ( sum ) ; }	public static void main ( String [ ] args ) throws IOException { BufferedReader bf = new BufferedReader ( new InputStreamReader ( System . in ) ) ; int N = Integer . parseInt ( bf . readLine ( ) ) , max = 0 , sum = 0 ; int [ ] p = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { p [ i ] = Integer . parseInt ( bf . readLine ( ) ) ; sum += p [ i ] ; if ( max < p [ i ] ) { max = p [ i ] ; } } sum -= max / 2 ; 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))) (throws (type_identifier)) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))))) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal)) declarator: (variable_declarator name: (identifier) value: (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_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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))) (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))))))) (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 (identifier))))))
public static void main ( String [ ] args ) { int n = sc . nextInt ( ) ; int max = 0 ; int ans = 0 ; for ( int i = 0 ; i < n ; i ++ ) { int tmp = sc . nextInt ( ) ; max = Math . max ( max , tmp ) ; ans += tmp ; } System . out . println ( ans - max / 2 ) ; }	public static void main ( String [ ] args ) { int n = sc . nextInt ( ) ; int max = 0 ; int ans = 0 ; for ( int i = 0 ; i < n ; i ++ ) { int tmp = sc . nextInt ( ) ; max = Math . max ( max , tmp ) ; ans += tmp ; } System . out . println ( ans - max / 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: (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: (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)))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal))))))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > list = new ArrayList < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { list . add ( sc . nextInt ( ) ) ; } Collections . sort ( list ) ; list . set ( n - 1 , list . get ( n - 1 ) / 2 ) ; int sum = 0 ; for ( int i : list ) { sum += i ; } System . out . println ( sum ) ; sc . close ( ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > list = new ArrayList < Integer > ( ) ; for ( int i = 0 ; i < n ; i ++ ) { list . add ( sc . nextInt ( ) ) ; } Collections . sort ( list ) ; list . set ( n - 1 , list . get ( n - 1 ) / 2 ) ; int sum = 0 ; for ( int i : list ) { sum += i ; } System . out . println ( sum ) ; sc . close ( ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (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 (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) 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 (binary_expression left: (identifier) right: (decimal_integer_literal)) (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (decimal_integer_literal))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (enhanced_for_statement type: (integral_type) name: (identifier) value: (identifier) body: (block (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (identifier)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static double f ( int [ ] x , int [ ] c , double p ) { double max = 0 ; int N = x . length ; for ( int i = 0 ; i < N ; i ++ ) { max = Math . max ( max , Math . abs ( p - x [ i ] ) * c [ i ] ) ; } return max ; }	public static double f ( int [ ] x , int [ ] c , double p ) { double max = 0 ; int N = x . length ; for ( int i = 0 ; i < N ; i ++ ) { max = Math . max ( max , Math . abs ( p - x [ i ] ) * c [ i ] ) ; } return max ; }	(method_declaration (modifiers) type: (floating_point_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (floating_point_type) name: (identifier))) body: (block (local_variable_declaration type: (floating_point_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)))) (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) (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (array_access array: (identifier) index: (identifier))))) right: (array_access array: (identifier) index: (identifier))))))))) (return_statement (identifier))))
public static double search ( int [ ] x , int [ ] c ) { double l = - 100001 , r = 100001 ; int L = 100 ; while ( L -- >= 0 ) { double ll = ( l * 2 + r ) / 3 ; double rr = ( l + r * 2 ) / 3 ; if ( f ( x , c , ll ) > f ( x , c , rr ) ) l = ll ; else r = rr ; } return l ; }	public static double search ( int [ ] x , int [ ] c ) { double l = - 100001 , r = 100001 ; int L = 100 ; while ( L -- >= 0 ) { double ll = ( l * 2 + r ) / 3 ; double rr = ( l + r * 2 ) / 3 ; if ( f ( x , c , ll ) > f ( x , c , rr ) ) l = ll ; else r = rr ; } return l ; }	(method_declaration (modifiers) type: (floating_point_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (array_type element: (integral_type) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (unary_expression operand: (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))) (while_statement condition: (parenthesized_expression (binary_expression left: (update_expression (identifier)) right: (decimal_integer_literal))) body: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (identifier))) right: (decimal_integer_literal)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (decimal_integer_literal)))) right: (decimal_integer_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))) right: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))))) consequence: (expression_statement (assignment_expression left: (identifier) right: (identifier))) alternative: (expression_statement (assignment_expression left: (identifier) right: (identifier)))))) (return_statement (identifier))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int [ ] x = new int [ N ] ; int [ ] y = new int [ N ] ; int [ ] c = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { x [ i ] = sc . nextInt ( ) ; y [ i ] = sc . nextInt ( ) ; c [ i ] = sc . nextInt ( ) ; } double lx = search ( x , c ) ; double ly = search ( y , c ) ; double ans = Math . max ( f ( x , c , lx ) , f ( y , c , ly ) ) ; System . out . println ( ans ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int [ ] x = new int [ N ] ; int [ ] y = new int [ N ] ; int [ ] c = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { x [ i ] = sc . nextInt ( ) ; y [ i ] = sc . nextInt ( ) ; c [ i ] = sc . nextInt ( ) ; } double lx = search ( x , c ) ; double ly = search ( y , c ) ; double ans = Math . max ( f ( x , c , lx ) , f ( y , c , ly ) ) ; System . out . println ( ans ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (identifier))))) (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 (identifier))))) (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 (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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier))))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier))))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))) (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))))))
private static double solve ( int n , double [ ] p , double [ ] c ) { double maxt = 0.0 ; for ( int i = 0 ; i < n ; i ++ ) { for ( int j = 0 ; j < n ; j ++ ) { if ( p [ i ] > p [ j ] ) { double x = ( c [ i ] * p [ i ] + c [ j ] * p [ j ] ) / ( c [ i ] + c [ j ] ) ; double t = c [ i ] * ( p [ i ] - x ) ; maxt = Math . max ( maxt , t ) ; } } } return maxt ; }	private static double solve ( int n , double [ ] p , double [ ] c ) { double maxt = 0.0 ; for ( int i = 0 ; i < n ; i ++ ) { for ( int j = 0 ; j < n ; j ++ ) { if ( p [ i ] > p [ j ] ) { double x = ( c [ i ] * p [ i ] + c [ j ] * p [ j ] ) / ( c [ i ] + c [ j ] ) ; double t = c [ i ] * ( p [ i ] - x ) ; maxt = Math . max ( maxt , t ) ; } } } return maxt ; }	(method_declaration (modifiers) type: (floating_point_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (integral_type) name: (identifier)) (formal_parameter type: (array_type element: (floating_point_type) dimensions: (dimensions)) name: (identifier)) (formal_parameter type: (array_type element: (floating_point_type) dimensions: (dimensions)) name: (identifier))) body: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (decimal_floating_point_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 (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: (array_access array: (identifier) index: (identifier)))) consequence: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))))) right: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (array_access array: (identifier) index: (identifier))))))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier)))))) (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 ) { Scanner s = new Scanner ( System . in ) ; int n = s . nextInt ( ) ; double [ ] x = new double [ n ] ; double [ ] y = new double [ n ] ; double [ ] c = new double [ n ] ; for ( int i = 0 ; i < n ; i ++ ) { x [ i ] = s . nextDouble ( ) ; y [ i ] = s . nextDouble ( ) ; c [ i ] = s . nextDouble ( ) ; } System . out . println ( Math . max ( solve ( n , x , c ) , solve ( n , y , c ) ) ) ; }	public static void main ( String [ ] args ) { Scanner s = new Scanner ( System . in ) ; int n = s . nextInt ( ) ; double [ ] x = new double [ n ] ; double [ ] y = new double [ n ] ; double [ ] c = new double [ n ] ; for ( int i = 0 ; i < n ; i ++ ) { x [ i ] = s . nextDouble ( ) ; y [ i ] = s . nextDouble ( ) ; c [ i ] = s . nextDouble ( ) ; } System . out . println ( Math . max ( solve ( n , x , c ) , solve ( n , y , c ) ) ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (floating_point_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (floating_point_type) dimensions: (dimensions_expr (identifier))))) (local_variable_declaration type: (array_type element: (floating_point_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (floating_point_type) dimensions: (dimensions_expr (identifier))))) (local_variable_declaration type: (array_type element: (floating_point_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (floating_point_type) 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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))) (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 (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))) (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier))))))))))
public static void main ( String [ ] args ) throws Throwable { try ( Scanner sc = new Scanner ( System . in ) ) { new Main ( ) . solve ( sc ) ; } }	public static void main ( String [ ] args ) throws Throwable { try ( Scanner sc = new Scanner ( System . in ) ) { new Main ( ) . solve ( sc ) ; } }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) (throws (type_identifier)) body: (block (try_with_resources_statement resources: (resource_specification (resource type: (type_identifier) name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) body: (block (expression_statement (method_invocation object: (object_creation_expression type: (type_identifier) arguments: (argument_list)) name: (identifier) arguments: (argument_list (identifier))))))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; Coordinate [ ] coordinate = new Coordinate [ n ] ; for ( int i = 0 ; i < n ; i ++ ) { coordinate [ i ] = new Coordinate ( sc . nextInt ( ) , sc . nextInt ( ) , sc . nextInt ( ) ) ; } double maxX = 0 ; double maxY = 0 ; for ( int i = 0 ; i < n - 1 ; i ++ ) { double x1 = coordinate [ i ] . x ; double y1 = coordinate [ i ] . y ; double cost1 = coordinate [ i ] . cost ; for ( int j = i ; j < n ; j ++ ) { double x2 = coordinate [ j ] . x ; double y2 = coordinate [ j ] . y ; double cost2 = coordinate [ j ] . cost ; double midX = Math . abs ( x1 - x2 ) * cost1 / ( cost1 + cost2 ) * cost2 ; double midY = Math . abs ( y1 - y2 ) * cost1 / ( cost1 + cost2 ) * cost2 ; maxX = Math . max ( maxX , midX ) ; maxY = Math . max ( maxY , midY ) ; } } System . out . println ( Math . max ( maxX , maxY ) ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; Coordinate [ ] coordinate = new Coordinate [ n ] ; for ( int i = 0 ; i < n ; i ++ ) { coordinate [ i ] = new Coordinate ( sc . nextInt ( ) , sc . nextInt ( ) , sc . nextInt ( ) ) ; } double maxX = 0 ; double maxY = 0 ; for ( int i = 0 ; i < n - 1 ; i ++ ) { double x1 = coordinate [ i ] . x ; double y1 = coordinate [ i ] . y ; double cost1 = coordinate [ i ] . cost ; for ( int j = i ; j < n ; j ++ ) { double x2 = coordinate [ j ] . x ; double y2 = coordinate [ j ] . y ; double cost2 = coordinate [ j ] . cost ; double midX = Math . abs ( x1 - x2 ) * cost1 / ( cost1 + cost2 ) * cost2 ; double midY = Math . abs ( y1 - y2 ) * cost1 / ( cost1 + cost2 ) * cost2 ; maxX = Math . max ( maxX , midX ) ; maxY = Math . max ( maxY , midY ) ; } } System . out . println ( Math . max ( maxX , maxY ) ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (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: (type_identifier) arguments: (argument_list (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)) (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)) (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (decimal_integer_literal))) (local_variable_declaration type: (floating_point_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: (binary_expression left: (identifier) right: (decimal_integer_literal))) update: (update_expression (identifier)) body: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (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: (block (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (field_access object: (array_access array: (identifier) index: (identifier)) field: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)))) right: (identifier)) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) right: (identifier)))) (local_variable_declaration type: (floating_point_type) declarator: (variable_declarator name: (identifier) value: (binary_expression left: (binary_expression left: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)))) right: (identifier)) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier) (identifier))))))))) (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) (identifier))))))))
public static void main ( String [ ] args ) { Scanner reader = new Scanner ( System . in ) ; int N = reader . nextInt ( ) ; int [ ] a = new int [ N ] ; int ans = 0 ; int [ ] M = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { ans += reader . nextInt ( ) - 1 ; } reader . close ( ) ; System . out . print ( ans ) ; }	public static void main ( String [ ] args ) { Scanner reader = new Scanner ( System . in ) ; int N = reader . nextInt ( ) ; int [ ] a = new int [ N ] ; int ans = 0 ; int [ ] M = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { ans += reader . nextInt ( ) - 1 ; } reader . close ( ) ; System . out . print ( ans ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (identifier))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (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_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: (identifier) right: (binary_expression left: (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: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (identifier))))))
public static void main ( String [ ] args ) throws IOException { BufferedReader r = new BufferedReader ( new InputStreamReader ( System . in ) , 1 ) ; PrintWriter out = new PrintWriter ( System . out ) ; String s ; String sl [ ] ; s = r . readLine ( ) ; sl = s . split ( " " ) ; n = Integer . parseInt ( sl [ 0 ] ) ; s = r . readLine ( ) ; sl = s . split ( " " ) ; int v = 0 ; for ( int i = 0 ; i < n ; i ++ ) { v += Integer . parseInt ( sl [ i ] ) - 1 ; } out . println ( v ) ; out . flush ( ) ; }	public static void main ( String [ ] args ) throws IOException { BufferedReader r = new BufferedReader ( new InputStreamReader ( System . in ) , 1 ) ; PrintWriter out = new PrintWriter ( System . out ) ; String s ; String sl [ ] ; s = r . readLine ( ) ; sl = s . split ( " ▁ " ) ; n = Integer . parseInt ( sl [ 0 ] ) ; s = r . readLine ( ) ; sl = s . split ( " ▁ " ) ; int v = 0 ; for ( int i = 0 ; i < n ; i ++ ) { v += Integer . parseInt ( sl [ i ] ) - 1 ; } out . println ( v ) ; out . flush ( ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) (throws (type_identifier)) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))) (decimal_integer_literal))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) dimensions: (dimensions))) (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 (string_literal))))) (expression_statement (assignment_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (decimal_integer_literal)))))) (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 (string_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: (binary_expression left: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (array_access array: (identifier) index: (identifier)))) right: (decimal_integer_literal)))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier)))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int n = scanner . nextInt ( ) ; int [ ] a = new int [ n ] ; int ans = 0 ; for ( int i = 0 ; i < n ; i ++ ) { a [ i ] = scanner . nextInt ( ) ; ans += a [ i ] - 1 ; } System . out . println ( ans ) ; }	public static void main ( String [ ] args ) { Scanner scanner = new Scanner ( System . in ) ; int n = scanner . nextInt ( ) ; int [ ] a = new int [ n ] ; int ans = 0 ; for ( int i = 0 ; i < n ; i ++ ) { a [ i ] = scanner . nextInt ( ) ; ans += a [ i ] - 1 ; } System . out . println ( ans ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) dimensions: (dimensions_expr (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: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal)))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (identifier))))))
public static int upperBound ( long [ ] a , long val ) { return upperBound ( a , 0 , a . length , val ) ; }	public static int upperBound ( long [ ] a , long val ) { return upperBound ( a , 0 , a . length , val ) ; }	(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 (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal) (field_access object: (identifier) field: (identifier)) (identifier))))))
public static int upperBound ( long [ ] a , int l , int r , long val ) { if ( r - l == 1 ) { if ( a [ l ] > val ) return l ; return r ; } int mid = ( l + r ) / 2 ; if ( a [ mid ] > val ) { return upperBound ( a , l , mid , val ) ; } else { return upperBound ( a , mid , r , val ) ; } }	public static int upperBound ( long [ ] a , int l , int r , long val ) { if ( r - l == 1 ) { if ( a [ l ] > val ) return l ; return r ; } int mid = ( l + r ) / 2 ; if ( a [ mid ] > val ) { return upperBound ( a , l , mid , val ) ; } else { return upperBound ( a , mid , r , val ) ; } }	(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)) (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: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (return_statement (identifier))) (return_statement (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: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (block (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier))))) alternative: (block (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier))))))))
public static int lowerBound ( long [ ] a , long val ) { return lowerBound ( a , 0 , a . length , val ) ; }	public static int lowerBound ( long [ ] a , long val ) { return lowerBound ( a , 0 , a . length , val ) ; }	(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 (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (decimal_integer_literal) (field_access object: (identifier) field: (identifier)) (identifier))))))
public static int lowerBound ( long [ ] a , int l , int r , long val ) { if ( r - l == 1 ) { if ( a [ l ] < val ) return r ; return l ; } int mid = ( l + r ) / 2 ; if ( a [ mid ] < val ) { return lowerBound ( a , mid , r , val ) ; } else { return lowerBound ( a , l , mid , val ) ; } }	public static int lowerBound ( long [ ] a , int l , int r , long val ) { if ( r - l == 1 ) { if ( a [ l ] < val ) return r ; return l ; } int mid = ( l + r ) / 2 ; if ( a [ mid ] < val ) { return lowerBound ( a , mid , r , val ) ; } else { return lowerBound ( a , l , mid , val ) ; } }	(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)) (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: (block (if_statement condition: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (return_statement (identifier))) (return_statement (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: (array_access array: (identifier) index: (identifier)) right: (identifier))) consequence: (block (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier))))) alternative: (block (return_statement (method_invocation name: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier))))))))
public static void main ( String [ ] args ) { int N = sc . nextInt ( ) ; long [ ] values = new long [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { values [ i ] = sc . nextLong ( ) ; } long ans = 0 ; for ( int i = 0 ; i < N ; i ++ ) { ans += ( values [ i ] - 1 ) ; } System . out . println ( ans ) ; }	public static void main ( String [ ] args ) { int N = sc . nextInt ( ) ; long [ ] values = new long [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { values [ i ] = sc . nextLong ( ) ; } long ans = 0 ; for ( int i = 0 ; i < N ; i ++ ) { ans += ( values [ i ] - 1 ) ; } System . out . println ( ans ) ; }	(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: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))) (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 (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: (method_invocation object: (identifier) name: (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 (expression_statement (assignment_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal))))))) (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (identifier))))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int [ ] a = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { a [ i ] = sc . nextInt ( ) ; } int ans = 0 ; for ( int i = 0 ; i < N ; i ++ ) { ans += a [ i ] - 1 ; } out . println ( ans ) ; }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int N = sc . nextInt ( ) ; int [ ] a = new int [ N ] ; for ( int i = 0 ; i < N ; i ++ ) { a [ i ] = sc . nextInt ( ) ; } int ans = 0 ; for ( int i = 0 ; i < N ; i ++ ) { ans += a [ i ] - 1 ; } out . println ( ans ) ; }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (array_type element: (integral_type) dimensions: (dimensions)) declarator: (variable_declarator name: (identifier) value: (array_creation_expression type: (integral_type) 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: (method_invocation object: (identifier) name: (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 (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (array_access array: (identifier) index: (identifier)) right: (decimal_integer_literal)))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (identifier))))))
public static void main ( String [ ] args ) { new Main ( ) . run ( ) ; }	public static void main ( String [ ] args ) { new Main ( ) . run ( ) ; }	(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 object: (object_creation_expression type: (type_identifier) arguments: (argument_list)) name: (identifier) arguments: (argument_list)))))
public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > ls = new LinkedList < > ( ) ; for ( int i = 0 ; i < n ; i ++ ) ls . add ( sc . nextInt ( ) ) ; int sum = ls . stream ( ) . mapToInt ( e -> e ) . sum ( ) ; if ( sum % 10 != 0 ) System . out . println ( sum ) ; else { OptionalInt tmp = ls . stream ( ) . mapToInt ( e -> e ) . filter ( e -> e % 10 != 0 ) . min ( ) ; if ( tmp . isPresent ( ) ) System . out . println ( sum - tmp . getAsInt ( ) ) ; else System . out . println ( 0 ) ; } }	public static void main ( String [ ] args ) { Scanner sc = new Scanner ( System . in ) ; int n = sc . nextInt ( ) ; List < Integer > ls = new LinkedList < > ( ) ; for ( int i = 0 ; i < n ; i ++ ) ls . add ( sc . nextInt ( ) ) ; int sum = ls . stream ( ) . mapToInt ( e -> e ) . sum ( ) ; if ( sum % 10 != 0 ) System . out . println ( sum ) ; else { OptionalInt tmp = ls . stream ( ) . mapToInt ( e -> e ) . filter ( e -> e % 10 != 0 ) . min ( ) ; if ( tmp . isPresent ( ) ) System . out . println ( sum - tmp . getAsInt ( ) ) ; else System . out . println ( 0 ) ; } }	(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: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (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: (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)))) (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: (identifier) name: (identifier) arguments: (argument_list (method_invocation object: (identifier) 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)) name: (identifier) arguments: (argument_list (lambda_expression parameters: (identifier) body: (identifier)))) name: (identifier) arguments: (argument_list)))) (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 (identifier)))) alternative: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (method_invocation object: (method_invocation object: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)) name: (identifier) arguments: (argument_list (lambda_expression parameters: (identifier) body: (identifier)))) name: (identifier) arguments: (argument_list (lambda_expression parameters: (identifier) body: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal))))) name: (identifier) arguments: (argument_list)))) (if_statement condition: (parenthesized_expression (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) consequence: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))) alternative: (expression_statement (method_invocation object: (field_access object: (identifier) field: (identifier)) name: (identifier) arguments: (argument_list (decimal_integer_literal)))))))))
public static void main ( String [ ] args ) throws IOException { MyScanner sc = new MyScanner ( System . in ) ; PrintWriter out = new PrintWriter ( System . out ) ; int n = sc . nextInt ( ) , sum = 0 ; int [ ] a = new int [ n ] ; for ( int i = 0 ; i < n ; i ++ ) sum += a [ i ] = sc . nextInt ( ) ; Arrays . sort ( a ) ; if ( sum % 10 == 0 ) for ( int i = 0 ; i < n ; i ++ ) if ( ( sum - a [ i ] ) % 10 != 0 ) { sum -= a [ i ] ; break ; } out . println ( sum % 10 == 0 ? 0 : sum ) ; out . flush ( ) ; out . close ( ) ; }	public static void main ( String [ ] args ) throws IOException { MyScanner sc = new MyScanner ( System . in ) ; PrintWriter out = new PrintWriter ( System . out ) ; int n = sc . nextInt ( ) , sum = 0 ; int [ ] a = new int [ n ] ; for ( int i = 0 ; i < n ; i ++ ) sum += a [ i ] = sc . nextInt ( ) ; Arrays . sort ( a ) ; if ( sum % 10 == 0 ) for ( int i = 0 ; i < n ; i ++ ) if ( ( sum - a [ i ] ) % 10 != 0 ) { sum -= a [ i ] ; break ; } out . println ( sum % 10 == 0 ? 0 : sum ) ; out . flush ( ) ; out . close ( ) ; }	(method_declaration (modifiers) type: (void_type) name: (identifier) parameters: (formal_parameters (formal_parameter type: (array_type element: (type_identifier) dimensions: (dimensions)) name: (identifier))) (throws (type_identifier)) body: (block (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (local_variable_declaration type: (type_identifier) declarator: (variable_declarator name: (identifier) value: (object_creation_expression type: (type_identifier) arguments: (argument_list (field_access object: (identifier) field: (identifier)))))) (local_variable_declaration type: (integral_type) declarator: (variable_declarator name: (identifier) value: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) declarator: (variable_declarator name: (identifier) value: (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_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: (expression_statement (assignment_expression left: (identifier) right: (assignment_expression left: (array_access array: (identifier) index: (identifier)) right: (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))) (expression_statement (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: (decimal_integer_literal))) consequence: (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: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) right: (decimal_integer_literal)) right: (decimal_integer_literal))) consequence: (block (expression_statement (assignment_expression left: (identifier) right: (array_access array: (identifier) index: (identifier)))) (break_statement))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list (ternary_expression condition: (binary_expression left: (binary_expression left: (identifier) right: (decimal_integer_literal)) right: (decimal_integer_literal)) consequence: (decimal_integer_literal) alternative: (identifier))))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list))) (expression_statement (method_invocation object: (identifier) name: (identifier) arguments: (argument_list)))))