input stringlengths 140 705 | output stringlengths 142 705 |
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protected void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { java.util.List < TYPE_3 > VAR_3 = VAR_1 . METHOD_2 ( ) ; if ( ! ( VAR_3 . isEmpty ( ) ) ) { TYPE_3 VAR_4 = VAR_3 . get ( 0 ) ; format ( VAR_4 , VAR_2 ) ; } } | protected void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { java.util.List < TYPE_3 > VAR_3 = VAR_1 . METHOD_2 ( ) ; if ( ! ( VAR_3 . isEmpty ( ) ) ) { TYPE_3 VAR_4 = VAR_3 . get ( 0 ) ; VAR_2 . format ( VAR_4 ) ; } } |
public TYPE_1 METHOD_1 ( java.lang.String name , java.lang.String VAR_1 , int x , int y , int VAR_2 , TYPE_2 VAR_3 ) { id = VAR_4 ; VAR_5 = new TYPE_3 ( x , y , 0 ) ; VAR_6 = new TYPE_4 ( VAR_2 , VAR_3 ) ; return new TYPE_1 ( id , name , VAR_1 , VAR_5 , VAR_6 ) ; } | public TYPE_1 METHOD_1 ( java.lang.String name , java.lang.String VAR_1 , int x , int y , int VAR_2 , TYPE_2 VAR_3 ) { id = VAR_4 ; VAR_5 = new TYPE_3 ( x , y ) ; VAR_6 = new TYPE_4 ( VAR_2 , VAR_3 ) ; return new TYPE_1 ( id , name , VAR_1 , VAR_5 , VAR_6 ) ; } |
public void set ( double time , TYPE_1 position , TYPE_2 VAR_1 , TYPE_3 VAR_2 , TYPE_3 VAR_3 ) { METHOD_1 ( time ) ; this . position . set ( position ) ; this . VAR_1 . set ( VAR_1 ) ; this . VAR_2 . set ( VAR_2 ) ; this . VAR_3 . set ( VAR_3 ) ; } | public void set ( double time , TYPE_1 position , TYPE_2 VAR_1 , TYPE_3 VAR_2 , TYPE_3 VAR_3 ) { this . time . set ( time ) ; this . position . set ( position ) ; this . VAR_1 . set ( VAR_1 ) ; this . VAR_2 . set ( VAR_2 ) ; this . VAR_3 . set ( VAR_3 ) ; } |
public boolean equals ( java.lang.Object obj ) { if ( getClass ( ) . equals ( obj . getClass ( ) ) ) { TYPE_1 p = ( ( TYPE_1 ) ( obj ) ) ; if ( ( data ) == null ) { return ( p . getData ( ) ) == null ; } else { return data . equals ( p . getData ( ) ) ; } } else { return false ; } } | public boolean equals ( java.lang.Object obj ) { if ( ( obj != null ) && ( getClass ( ) . equals ( obj . getClass ( ) ) ) ) { TYPE_1 p = ( ( TYPE_1 ) ( obj ) ) ; if ( ( data ) == null ) { return ( p . getData ( ) ) == null ; } else { return data . equals ( p . getData ( ) ) ; } } else { return false ; } } |
public static boolean METHOD_1 ( TYPE_1 VAR_1 ) { if ( ! ( VAR_1 . METHOD_2 ( ) ) ) { return false ; } try { if ( VAR_1 . METHOD_3 ( VAR_2 ) ) { return true ; } } catch ( TYPE_2 VAR_3 ) { VAR_3 . METHOD_4 ( ) ; } return false ; } | public static boolean METHOD_1 ( TYPE_1 VAR_1 ) { if ( VAR_1 == null ) { return false ; } if ( ! ( VAR_1 . METHOD_2 ( ) ) ) { return false ; } try { if ( VAR_1 . METHOD_3 ( VAR_2 ) ) { return true ; } } catch ( TYPE_2 VAR_3 ) { VAR_3 . METHOD_4 ( ) ; } return false ; } |
public void METHOD_1 ( android.content.Context context , android.content.Intent intent ) { if ( ( VAR_1 ) == null ) { VAR_1 = intent . METHOD_2 ( VAR_2 ) ; } if ( VAR_3 . equals ( VAR_1 ) ) { int VAR_4 = intent . METHOD_3 ( VAR_5 , 0 ) ; VAR_6 . METHOD_4 ( VAR_7 ) ; VAR_8 . METHOD_5 ( VAR_4 ) ; java.lang.String VAR_9 = new TYPE_1 ( STRING_1 ) . format ( new java.util.Date ( VAR_4 ) ) ; VAR_10 . setText ( VAR_9 ) ; VAR_11 = true ; } } | public void METHOD_1 ( android.content.Context context , android.content.Intent intent ) { VAR_1 = intent . METHOD_2 ( VAR_2 ) ; if ( VAR_3 . equals ( VAR_1 ) ) { int VAR_4 = intent . METHOD_3 ( VAR_5 , 0 ) ; VAR_6 . METHOD_4 ( VAR_7 ) ; VAR_8 . METHOD_5 ( VAR_4 ) ; java.lang.String VAR_9 = new TYPE_1 ( STRING_1 ) . format ( new java.util.Date ( VAR_4 ) ) ; VAR_10 . setText ( VAR_9 ) ; VAR_11 = true ; } } |
public void METHOD_1 ( ) { boolean VAR_1 = true ; java.lang.String VAR_2 = null ; while ( VAR_1 ) { java.lang.System.out.print ( STRING_1 ) ; VAR_2 = VAR_3 . METHOD_2 ( ) ; switch ( VAR_2 ) { case STRING_2 : VAR_4 . METHOD_3 ( ) . METHOD_4 ( METHOD_5 ( ) ) ; break ; case STRING_3 : METHOD_6 ( ) ; break ; case STRING_4 : METHOD_7 ( ) ; VAR_1 = false ; break ; default : break ; } } } | public void METHOD_1 ( ) { boolean VAR_1 = true ; java.lang.String VAR_2 = null ; while ( VAR_1 ) { java.lang.System.out.print ( STRING_1 ) ; VAR_2 = VAR_3 . METHOD_2 ( ) ; switch ( VAR_2 ) { case STRING_2 : VAR_4 . METHOD_4 ( METHOD_5 ( ) ) ; break ; case STRING_3 : METHOD_6 ( ) ; break ; case STRING_4 : METHOD_7 ( ) ; VAR_1 = false ; break ; default : break ; } } } |
public boolean METHOD_1 ( TYPE_1 VAR_1 , java.lang.String VAR_2 ) { java.util.Map < java.lang.String , java.lang.String > VAR_3 = new java.util.HashMap < > ( ) ; VAR_3 . put ( STRING_1 , ( STRING_2 + VAR_2 ) ) ; java.lang.String VAR_4 = TYPE_2 . METHOD_2 ( VAR_5 , VAR_3 ) ; if ( VAR_4 . equals ( STRING_3 ) ) { return true ; } return false ; } | public boolean METHOD_1 ( java.lang.String VAR_2 ) { java.util.Map < java.lang.String , java.lang.String > VAR_3 = new java.util.HashMap < > ( ) ; VAR_3 . put ( STRING_1 , ( STRING_2 + VAR_2 ) ) ; java.lang.String VAR_4 = TYPE_2 . METHOD_2 ( VAR_5 , VAR_3 ) ; if ( VAR_4 . equals ( STRING_3 ) ) { return true ; } return false ; } |
public java.lang.String METHOD_1 ( TYPE_1 VAR_1 , java.lang.String VAR_2 , java.lang.String VAR_3 ) { java.lang.System.out.println ( STRING_1 ) ; java.lang.System.out.println ( ( ( VAR_2 + STRING_2 ) + VAR_3 ) ) ; if ( VAR_4 . METHOD_2 ( VAR_2 , VAR_3 ) ) { VAR_1 . METHOD_3 ( STRING_3 , VAR_2 ) ; java.lang.System.out.println ( STRING_4 ) ; return STRING_5 ; } else java.lang.System.out.println ( STRING_6 ) ; return STRING_7 ; } | public java.lang.String METHOD_1 ( TYPE_1 VAR_1 , java.lang.String VAR_2 , java.lang.String VAR_3 ) { java.lang.System.out.println ( ( ( VAR_2 + STRING_2 ) + VAR_3 ) ) ; if ( VAR_4 . METHOD_2 ( VAR_2 , VAR_3 ) ) { VAR_1 . METHOD_3 ( STRING_3 , VAR_2 ) ; java.lang.System.out.println ( STRING_4 ) ; return STRING_5 ; } else java.lang.System.out.println ( STRING_6 ) ; return STRING_7 ; } |
public TYPE_1 METHOD_1 ( final java.lang.String VAR_1 ) throws TYPE_2 { TYPE_3 < TYPE_1 > VAR_2 = new TYPE_3 < TYPE_1 > ( ) { public TYPE_1 METHOD_2 ( ) throws java.lang.Exception { return VAR_3 . METHOD_1 ( VAR_1 ) ; } } ; try { return METHOD_3 ( VAR_2 ) ; } catch ( java.lang.Exception VAR_4 ) { TYPE_4 . error ( STRING_1 , VAR_4 ) ; throw new TYPE_2 ( VAR_4 ) ; } } | public TYPE_1 METHOD_1 ( final java.lang.String VAR_1 ) throws TYPE_2 { TYPE_3 < TYPE_1 > VAR_2 = new TYPE_3 < TYPE_1 > ( ) { public TYPE_1 METHOD_2 ( ) throws java.lang.Exception { return VAR_3 . METHOD_1 ( VAR_1 ) ; } } ; try { return METHOD_3 ( VAR_2 ) ; } catch ( java.lang.Exception VAR_4 ) { throw new TYPE_2 ( VAR_4 ) ; } } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; TYPE_1 args = METHOD_2 ( ) ; VAR_2 = ( ( TYPE_2 ) ( args . get ( VAR_3 ) ) ) ; VAR_4 = ( ( java.util.ArrayList < TYPE_3 > ) ( args . get ( VAR_5 ) ) ) ; VAR_6 = new java.util.ArrayList < > ( ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; TYPE_1 args = METHOD_2 ( ) ; VAR_4 = ( ( java.util.ArrayList < TYPE_3 > ) ( args . get ( VAR_5 ) ) ) ; VAR_6 = new java.util.ArrayList < > ( ) ; } |
public void METHOD_1 ( ) throws TYPE_1 { java.util.List < java.lang.String > VAR_1 = ( ( java.util.List < java.lang.String > ) ( VAR_2 . METHOD_2 ( ) . get ( ) ) ) ; java.lang.System.out.println ( ( STRING_1 + ( VAR_2 . METHOD_2 ( ) ) ) ) ; for ( java.lang.String VAR_3 : VAR_1 ) { java.lang.System.out.println ( ( STRING_2 + VAR_3 ) ) ; VAR_2 . METHOD_3 ( VAR_3 ) ; java.lang.System.out.println ( STRING_3 ) ; } java.lang.System.out.println ( ( STRING_1 + ( VAR_2 . METHOD_2 ( ) ) ) ) ; } | public void METHOD_1 ( ) throws TYPE_1 { java.util.List < java.lang.String > VAR_1 = ( ( java.util.List < java.lang.String > ) ( VAR_2 . METHOD_2 ( ) . get ( ) ) ) ; java.lang.System.out.println ( ( STRING_1 + VAR_1 ) ) ; for ( java.lang.String VAR_3 : VAR_1 ) { java.lang.System.out.println ( ( STRING_2 + VAR_3 ) ) ; VAR_2 . METHOD_3 ( VAR_3 ) ; java.lang.System.out.println ( STRING_3 ) ; } java.lang.System.out.println ( ( STRING_1 + ( VAR_2 . METHOD_2 ( ) . get ( ) ) ) ) ; } |
public void METHOD_1 ( ) throws java.io.IOException { TYPE_1 . METHOD_2 ( new TYPE_2 ( ) ) . METHOD_3 ( VAR_1 ) . METHOD_4 ( ( ( VAR_2 ) + STRING_1 ) ) ; TYPE_3 VAR_3 = VAR_4 . METHOD_5 ( ( ( VAR_2 ) + STRING_1 ) ) ; TYPE_4 . assertThat ( VAR_3 ) . METHOD_6 ( VAR_5 ) ; } | public void METHOD_1 ( ) throws java.io.IOException { TYPE_1 . METHOD_2 ( new TYPE_2 ( ) ) . METHOD_3 ( VAR_1 ) . METHOD_4 ( ( ( VAR_2 ) + STRING_1 ) ) ; TYPE_3 VAR_3 = VAR_4 . METHOD_5 ( ( ( VAR_2 ) + STRING_1 ) ) ; TYPE_4 . assertThat ( VAR_3 ) . METHOD_6 ( null ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , float VAR_2 ) { VAR_3 . METHOD_2 ( false ) ; VAR_4 . METHOD_2 ( true ) ; if ( ( VAR_5 ) < ( VAR_6 ) ) { VAR_7 = 1 - ( ( VAR_5 ) / ( VAR_6 ) ) ; VAR_4 . METHOD_3 ( new TYPE_2 ( 0 , 0 , 0 , VAR_7 ) ) ; VAR_8 . METHOD_4 ( VAR_1 ) ; VAR_8 . METHOD_5 ( ) ; VAR_5 += VAR_2 ; } } | public void METHOD_1 ( TYPE_1 VAR_1 , float VAR_2 ) { VAR_3 . METHOD_2 ( false ) ; VAR_4 . METHOD_2 ( true ) ; if ( ( VAR_5 ) < ( VAR_6 ) ) { VAR_7 = 1 - ( ( VAR_5 ) / ( VAR_6 ) ) ; VAR_4 . METHOD_3 ( new TYPE_2 ( 0 , 0 , 0 , VAR_7 ) ) ; VAR_8 . METHOD_4 ( VAR_1 ) ; VAR_5 += VAR_2 ; } VAR_8 . METHOD_5 ( ) ; } |
protected java.util.Map < TYPE_1 , java.lang.Object > METHOD_1 ( ) { return TYPE_2 . METHOD_2 ( new java.util.HashMap < TYPE_1 , java.lang.Object > ( ) { { put ( VAR_1 , false ) ; put ( VAR_2 , null ) ; put ( VAR_3 , false ) ; put ( VAR_4 , null ) ; put ( VAR_5 , true ) ; } } ) ; } | protected java.util.Map < TYPE_1 , java.lang.Object > METHOD_1 ( ) { return TYPE_2 . METHOD_2 ( new java.util.HashMap < TYPE_1 , java.lang.Object > ( ) { { put ( VAR_1 , null ) ; put ( VAR_2 , null ) ; put ( VAR_3 , null ) ; put ( VAR_4 , null ) ; put ( VAR_5 , null ) ; } } ) ; } |
public void METHOD_1 ( ) { METHOD_2 ( ) ; if ( ! ( METHOD_3 ( ) ) ) return ; VAR_1 = true ; TYPE_1 VAR_2 = TYPE_1 . METHOD_4 ( METHOD_5 ( ) , METHOD_6 ( ) ) ; TYPE_2 VAR_3 = VAR_2 . METHOD_7 ( ) ; VAR_4 . METHOD_8 ( VAR_3 ) ; VAR_1 = false ; } | public void METHOD_1 ( ) { METHOD_2 ( ) ; VAR_1 = true ; TYPE_2 VAR_3 = new TYPE_2 ( ) ; if ( METHOD_3 ( ) ) { TYPE_1 VAR_2 = TYPE_1 . METHOD_4 ( METHOD_5 ( ) , METHOD_6 ( ) ) ; VAR_3 = VAR_2 . METHOD_7 ( ) ; } VAR_4 . METHOD_8 ( VAR_3 ) ; VAR_1 = false ; } |
public java.lang.String METHOD_1 ( java.lang.String VAR_1 , java.lang.String VAR_2 , TYPE_1 VAR_3 ) { java.util.List < TYPE_2 > list = VAR_4 . METHOD_2 ( ) ; TYPE_2 VAR_5 = VAR_4 . METHOD_3 ( VAR_1 ) ; java.util.List < TYPE_3 > VAR_6 = VAR_7 . METHOD_4 ( ) ; VAR_3 . METHOD_5 ( STRING_1 , VAR_5 ) ; VAR_3 . METHOD_5 ( STRING_2 , list ) ; VAR_3 . METHOD_5 ( STRING_3 , VAR_6 ) ; return STRING_4 ; } | public java.lang.String METHOD_1 ( java.lang.String VAR_1 , java.lang.String VAR_2 , TYPE_1 VAR_3 ) { java.util.List < TYPE_2 > list = VAR_4 . METHOD_2 ( ) ; VAR_5 = VAR_4 . METHOD_3 ( VAR_1 ) ; java.util.List < TYPE_3 > VAR_6 = VAR_7 . METHOD_4 ( ) ; VAR_3 . METHOD_5 ( STRING_1 , VAR_5 ) ; VAR_3 . METHOD_5 ( STRING_2 , list ) ; VAR_3 . METHOD_5 ( STRING_3 , VAR_6 ) ; return STRING_4 ; } |
public void update ( ) { super . update ( ) ; this . x = ( INT_1 / INT_2 ) + ( TYPE_1 . METHOD_1 ( ) . METHOD_2 ( ) ) ; this . y = ( INT_3 / INT_2 ) + ( TYPE_1 . METHOD_1 ( ) . METHOD_3 ( ) ) ; java.lang.System.out.print ( ( ( STRING_1 + ( METHOD_4 ( ) ) ) + STRING_2 ) ) ; java.lang.System.out.println ( ( STRING_3 + ( METHOD_5 ( ) ) ) ) ; } | public void update ( ) { super . update ( ) ; this . x = ( INT_1 / INT_2 ) + ( TYPE_1 . METHOD_1 ( ) . METHOD_2 ( ) ) ; this . y = ( INT_3 / INT_2 ) + ( TYPE_1 . METHOD_1 ( ) . METHOD_3 ( ) ) ; } |
int METHOD_1 ( int t ) { double VAR_1 = VAR_2 [ t ] [ 0 ] ; int VAR_3 = - 1 ; for ( int i = 1 ; i < ( ( this . VAR_4 ) * ( this . VAR_5 ) ) ; i ++ ) { if ( ( VAR_2 [ t ] [ i ] ) > VAR_1 ) { VAR_1 = VAR_2 [ t ] [ i ] ; VAR_3 = i ; } } return VAR_3 ; } | int METHOD_1 ( int t ) { double VAR_1 = VAR_2 [ t ] [ 0 ] ; int VAR_3 = 0 ; for ( int i = 1 ; i < ( ( this . VAR_4 ) * ( this . VAR_5 ) ) ; i ++ ) { if ( ( VAR_2 [ t ] [ i ] ) > VAR_1 ) { VAR_1 = VAR_2 [ t ] [ i ] ; VAR_3 = i ; } } return VAR_3 ; } |
public void METHOD_1 ( java.lang.String VAR_1 , boolean VAR_2 ) { for ( int i = 0 ; i < ( VAR_3 . size ( ) ) ; i ++ ) { TYPE_1 VAR_4 = VAR_3 . METHOD_2 ( i ) ; if ( ( ( VAR_5 ) != null ) && ( VAR_5 . equals ( VAR_1 ) ) ) { VAR_4 . METHOD_3 ( VAR_2 ) ; } } } | public void METHOD_1 ( java.lang.String VAR_1 , boolean VAR_2 ) { for ( int i = 0 ; i < ( VAR_3 . size ( ) ) ; i ++ ) { TYPE_1 VAR_4 = VAR_3 . METHOD_2 ( i ) ; if ( ( ( VAR_5 ) != null ) && ( VAR_5 . equals ( VAR_1 ) ) ) { VAR_4 . METHOD_3 ( VAR_2 ) ; break ; } } } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { if ( ( ( VAR_2 ) != null ) && ( VAR_3 ) ) try { VAR_2 . start ( ) ; VAR_2 . METHOD_2 ( METHOD_3 ( ) , METHOD_4 ( ) ) ; } catch ( java.lang.Exception VAR_4 ) { } if ( ( VAR_5 ) != null ) VAR_5 . METHOD_5 ( ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { try { VAR_2 . start ( ) ; VAR_2 . METHOD_2 ( METHOD_3 ( ) , METHOD_4 ( ) ) ; } catch ( java.lang.Exception VAR_4 ) { } if ( ( VAR_5 ) != null ) VAR_5 . METHOD_5 ( ) ; } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; TYPE_2 . METHOD_3 ( STRING_1 , STRING_2 ) ; METHOD_4 ( ) ; METHOD_5 ( ) ; TYPE_3 VAR_3 = METHOD_6 ( ) . METHOD_7 ( STRING_3 , 0 ) ; METHOD_8 ( VAR_3 . METHOD_9 ( STRING_4 , METHOD_10 ( ) . METHOD_11 ( VAR_4 ) ) ) ; } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; METHOD_4 ( ) ; METHOD_5 ( ) ; TYPE_3 VAR_3 = METHOD_6 ( ) . METHOD_7 ( STRING_3 , 0 ) ; METHOD_8 ( VAR_3 . METHOD_9 ( STRING_4 , METHOD_10 ( ) . METHOD_11 ( VAR_4 ) ) ) ; } |
public void METHOD_1 ( final TYPE_1 VAR_1 , final TYPE_2 VAR_2 ) { final java.lang.String VAR_3 = VAR_1 . getString ( "id" ) ; TYPE_3 VAR_4 = new TYPE_3 ( VAR_5 , VAR_6 ) { public void METHOD_2 ( ) throws TYPE_4 { TYPE_5 VAR_7 = VAR_8 . get ( VAR_3 ) ; VAR_7 . METHOD_1 ( ) ; METHOD_3 ( METHOD_4 ( VAR_7 . METHOD_5 ( ) ) ) ; } } ; VAR_9 . METHOD_6 ( VAR_4 ) ; } | public void METHOD_1 ( final TYPE_1 VAR_1 , final TYPE_2 VAR_2 ) { final java.lang.String VAR_3 = VAR_1 . getString ( "id" ) ; TYPE_3 VAR_4 = new TYPE_3 ( VAR_5 , VAR_3 , VAR_6 ) { public void METHOD_2 ( ) throws TYPE_4 { TYPE_5 VAR_7 = VAR_8 . get ( VAR_3 ) ; VAR_7 . METHOD_1 ( ) ; METHOD_3 ( METHOD_4 ( VAR_7 . METHOD_5 ( ) ) ) ; } } ; VAR_9 . METHOD_6 ( VAR_4 ) ; } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; VAR_3 = ( ( TYPE_2 ) ( METHOD_3 ( VAR_4 ) ) ) ; VAR_3 . METHOD_4 ( new TYPE_3 ( this ) ) ; VAR_5 = new TYPE_4 ( METHOD_5 ( ) ) ; VAR_6 = new TYPE_5 ( VAR_5 . METHOD_6 ( ) ) ; VAR_3 . METHOD_7 ( VAR_6 ) ; } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { VAR_5 = new TYPE_4 ( METHOD_5 ( ) ) ; super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; VAR_3 = ( ( TYPE_2 ) ( METHOD_3 ( VAR_4 ) ) ) ; VAR_3 . METHOD_4 ( new TYPE_3 ( this ) ) ; VAR_6 = new TYPE_5 ( VAR_5 . METHOD_6 ( ) ) ; VAR_3 . METHOD_7 ( VAR_6 ) ; } |
public static TYPE_1 METHOD_1 ( final java.lang.String VAR_1 ) throws TYPE_2 { final java.lang.String VAR_2 = TYPE_1 . METHOD_2 ( VAR_1 ) ; TYPE_1 VAR_3 = null ; if ( ( VAR_2 . length ( ) ) <= INT_1 ) { VAR_3 = new TYPE_3 ( VAR_2 , VAR_1 ) ; } if ( ( VAR_2 . length ( ) ) >= INT_2 ) { VAR_3 = new TYPE_1 ( VAR_2 , VAR_1 ) ; } return VAR_3 ; } | public static TYPE_1 METHOD_1 ( final java.lang.String VAR_1 ) throws TYPE_2 { final java.lang.String VAR_2 = TYPE_1 . METHOD_2 ( VAR_1 ) ; TYPE_1 VAR_3 = null ; if ( ( VAR_2 . length ( ) ) <= INT_1 ) { VAR_3 = new TYPE_3 ( VAR_2 , VAR_1 ) ; } else { VAR_3 = new TYPE_1 ( VAR_2 , VAR_1 ) ; } return VAR_3 ; } |
private void METHOD_1 ( TYPE_1 VAR_1 , java.lang.String VAR_2 , java.lang.String name ) { VAR_3 = new TYPE_2 ( ( ( TYPE_3 ) ( VAR_1 ) ) , new TYPE_4 ( ( VAR_2 != null ? TYPE_5 . METHOD_2 ( VAR_2 ) : null ) , name ) , new TYPE_6 ( VAR_1 , VAR_3 , this ) ) ; VAR_4 = new TYPE_7 ( TYPE_8 . METHOD_3 ( ) , new TYPE_9 ( false ) , VAR_3 ) ; VAR_5 = new TYPE_10 ( VAR_3 ) ; VAR_6 = name ; } | private void METHOD_1 ( TYPE_1 VAR_1 , java.lang.String VAR_2 , java.lang.String name ) { VAR_3 = new TYPE_2 ( ( ( TYPE_3 ) ( VAR_1 ) ) , new TYPE_4 ( ( VAR_2 != null ? TYPE_5 . METHOD_2 ( VAR_2 ) : null ) , name ) , new TYPE_6 ( VAR_1 , VAR_3 , this ) , this ) ; VAR_4 = new TYPE_7 ( TYPE_8 . METHOD_3 ( ) , new TYPE_9 ( false ) , VAR_3 ) ; VAR_5 = new TYPE_10 ( VAR_3 ) ; VAR_6 = name ; } |
public TYPE_1 METHOD_1 ( int num ) { TYPE_1 VAR_1 = null ; int i = 0 ; if ( num != ( - 1 ) ) { while ( ( VAR_1 == null ) && ( i < ( VAR_2 . size ( ) ) ) ) { if ( num == ( VAR_2 . get ( i ) . METHOD_2 ( ) . getId ( ) ) ) { VAR_1 = VAR_2 . get ( i ) ; } else { i ++ ; } } } return VAR_1 ; } | private TYPE_1 METHOD_1 ( int num ) { TYPE_1 VAR_1 = null ; int i = 0 ; if ( num != ( - 1 ) ) { while ( ( VAR_1 == null ) && ( i < ( VAR_2 . size ( ) ) ) ) { if ( num == ( VAR_2 . get ( i ) . METHOD_2 ( ) . getId ( ) ) ) { VAR_1 = VAR_2 . get ( i ) ; } else { i ++ ; } } } return VAR_1 ; } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { int VAR_2 = TYPE_2 . METHOD_2 ( ( ( VAR_3 . METHOD_3 ( ) . x ) - INT_1 ) , 1 ) ; VAR_4 = TYPE_2 . METHOD_2 ( ( VAR_2 / ( VAR_5 ) ) , 1 ) ; METHOD_4 ( false , false ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { int VAR_2 = TYPE_2 . METHOD_2 ( ( ( VAR_3 . METHOD_3 ( ) . x ) - INT_1 ) , 1 ) ; VAR_4 = TYPE_2 . METHOD_2 ( ( VAR_2 / ( VAR_5 ) ) , 1 ) ; METHOD_4 ( false , false , true ) ; } |
public static java.util.HashMap < java.lang.String , TYPE_1 > METHOD_1 ( TYPE_2 VAR_1 ) { java.util.HashMap < java.lang.String , TYPE_1 > VAR_2 = new java.util.HashMap < > ( ) ; java.util.Collection < TYPE_3 > VAR_3 = VAR_1 . METHOD_2 ( ) . METHOD_3 ( ) . METHOD_4 ( ) ; for ( TYPE_3 VAR_4 : VAR_3 ) { if ( ! ( TYPE_4 . METHOD_5 ( VAR_5 ) ) ) { VAR_2 . put ( VAR_5 , new TYPE_1 ( VAR_4 ) ) ; } } return VAR_2 ; } | public static java.util.Map < java.lang.String , TYPE_1 > METHOD_1 ( TYPE_2 VAR_1 ) { java.util.Map < java.lang.String , TYPE_1 > VAR_2 = new java.util.HashMap < > ( ) ; java.util.Collection < TYPE_3 > VAR_3 = VAR_1 . METHOD_2 ( ) . METHOD_3 ( ) . METHOD_4 ( ) ; for ( TYPE_3 VAR_4 : VAR_3 ) { if ( ! ( TYPE_4 . METHOD_5 ( VAR_5 ) ) ) { VAR_2 . put ( VAR_5 , new TYPE_1 ( VAR_4 ) ) ; } } return VAR_2 ; } |
private static void METHOD_1 ( TYPE_1 VAR_1 ) { java.util.ArrayList < TYPE_2 > names = new java.util.ArrayList < TYPE_2 > ( ) ; java.util.ArrayList < java.lang.String > VAR_2 = new java.util.ArrayList < java.lang.String > ( ) ; VAR_2 . add ( STRING_1 ) ; VAR_1 . METHOD_2 ( VAR_2 ) ; names . add ( VAR_1 ) ; TYPE_3 . METHOD_3 ( names , VAR_3 , STRING_2 , TYPE_3 . METHOD_4 ( ) , false ) ; } | private static void METHOD_1 ( TYPE_1 VAR_1 ) { java.util.ArrayList < TYPE_2 > names = new java.util.ArrayList < TYPE_2 > ( ) ; java.util.ArrayList < java.lang.String > VAR_2 = new java.util.ArrayList < java.lang.String > ( ) ; VAR_2 . add ( STRING_1 ) ; VAR_1 . METHOD_2 ( VAR_2 ) ; names . add ( VAR_1 ) ; TYPE_3 . METHOD_3 ( names , VAR_3 , STRING_2 , false , false ) ; } |
public void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( this ) ; this . VAR_1 = null ; this . VAR_2 = null ; this . VAR_3 = null ; this . VAR_4 = null ; this . VAR_5 = null ; this . VAR_6 = null ; this . VAR_7 = null ; this . VAR_8 = null ; } | public void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( this ) ; this . VAR_1 = null ; this . VAR_2 = null ; this . VAR_3 = null ; this . VAR_4 = null ; this . VAR_6 = null ; this . VAR_7 = null ; this . VAR_8 = null ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 source , int VAR_2 , int VAR_3 ) { TYPE_3 . METHOD_2 ( VAR_4 class . getName ( ) , ( ( ( STRING_1 + VAR_2 ) + STRING_2 ) + VAR_3 ) ) ; try { METHOD_3 ( ) . METHOD_4 ( VAR_1 , source , VAR_2 ) ; } catch ( TYPE_4 VAR_5 ) { TYPE_5 . METHOD_5 ( VAR_5 , getContext ( ) , VAR_6 , VAR_4 class ) ; } METHOD_6 ( VAR_1 ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 source , int VAR_2 , int VAR_3 ) { TYPE_3 . METHOD_2 ( VAR_4 class . getName ( ) , ( ( ( STRING_1 + VAR_2 ) + STRING_2 ) + VAR_3 ) ) ; try { METHOD_3 ( ) . METHOD_4 ( VAR_1 , source , VAR_2 ) ; } catch ( TYPE_4 VAR_5 ) { TYPE_5 . METHOD_5 ( VAR_5 , getContext ( ) , VAR_6 , VAR_4 class ) ; } } |
public TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { TYPE_1 VAR_2 = super . METHOD_1 ( VAR_1 ) ; TYPE_3 VAR_3 = new TYPE_3 ( VAR_4 ) ; VAR_3 . METHOD_2 ( INT_1 ) ; VAR_3 . METHOD_3 ( VAR_5 ) ; if ( ( VAR_2 != null ) && ( ( METHOD_4 ( ) ) != null ) ) VAR_1 . METHOD_5 ( java.lang.String . METHOD_6 ( step ) , METHOD_4 ( ) . METHOD_7 ( ) , METHOD_4 ( ) . METHOD_8 ( ) , VAR_3 ) ; METHOD_9 ( ) ; return VAR_2 ; } | public TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { TYPE_1 VAR_2 = super . METHOD_1 ( VAR_1 ) ; TYPE_3 VAR_3 = new TYPE_3 ( VAR_4 ) ; VAR_3 . METHOD_2 ( INT_1 ) ; VAR_3 . METHOD_3 ( VAR_5 ) ; if ( ( VAR_2 != null ) && ( ( METHOD_4 ( ) ) != null ) ) VAR_1 . METHOD_5 ( java.lang.String . METHOD_6 ( step ) , METHOD_4 ( ) . METHOD_7 ( ) , METHOD_4 ( ) . METHOD_8 ( ) , VAR_3 ) ; return VAR_2 ; } |
public void METHOD_1 ( TYPE_1 event ) { if ( ( VAR_1 ) == ( VAR_2 ) ) { if ( ! ( VAR_3 ) ) { VAR_4 . METHOD_2 ( new TYPE_2 ( VAR_5 , new java.lang.Object [ ] { } ) ) ; VAR_3 = true ; } if ( VAR_6 ) { VAR_7 = null ; TYPE_3 . METHOD_3 ( VAR_8 , VAR_9 . METHOD_4 ( ) ) ; } } } | public void METHOD_1 ( TYPE_1 event ) { if ( ( VAR_1 ) == ( VAR_2 ) ) { if ( ! ( VAR_3 ) ) { VAR_4 . METHOD_2 ( new TYPE_2 ( VAR_5 , new java.lang.Object [ ] { } ) ) ; VAR_3 = true ; } if ( ( VAR_9 ) != null ) { VAR_7 = null ; TYPE_3 . METHOD_3 ( VAR_8 , VAR_9 . METHOD_4 ( ) ) ; } } } |
public boolean METHOD_1 ( java.lang.String query ) { if ( ! ( METHOD_2 ( ) ) ) { TYPE_1 . METHOD_3 ( this , getString ( VAR_1 ) , VAR_2 ) . show ( ) ; return false ; } VAR_3 = ( ( VAR_4 ) + ( query . trim ( ) ) ) + ( VAR_5 ) ; VAR_6 = METHOD_4 ( VAR_7 ) ; VAR_6 . METHOD_5 ( VAR_8 ) ; VAR_9 = METHOD_6 ( ) ; VAR_9 . METHOD_7 ( VAR_10 , null , this ) ; return false ; } | public boolean METHOD_1 ( java.lang.String query ) { if ( ! ( METHOD_2 ( ) ) ) { TYPE_1 . METHOD_3 ( this , getString ( VAR_1 ) , VAR_2 ) . show ( ) ; return false ; } VAR_3 = query . trim ( ) ; VAR_6 = METHOD_4 ( VAR_7 ) ; VAR_6 . METHOD_5 ( VAR_8 ) ; VAR_9 = METHOD_6 ( ) ; VAR_9 . METHOD_7 ( VAR_10 , null , this ) ; return false ; } |
public void METHOD_1 ( ) { if ( ! ( VAR_1 ) ) { if ( null != ( VAR_2 ) ) VAR_3 . METHOD_2 ( STRING_1 , VAR_2 ) ; TYPE_1 . METHOD_3 ( getActivity ( ) . METHOD_4 ( ) , VAR_4 , VAR_5 ) . show ( ) ; VAR_1 = true ; } } | public void METHOD_1 ( ) { if ( ! ( VAR_1 ) ) { if ( null != ( VAR_2 ) ) { VAR_3 . METHOD_2 ( STRING_1 , VAR_2 ) ; } TYPE_1 . METHOD_3 ( getActivity ( ) . METHOD_4 ( ) , VAR_4 , VAR_5 ) . show ( ) ; VAR_1 = true ; } else { VAR_3 . METHOD_2 ( STRING_1 , VAR_2 ) ; } } |
private static java.lang.String METHOD_1 ( java.lang.String name ) { java.lang.StringBuffer result = new java.lang.StringBuffer ( ) ; for ( char c : name . METHOD_2 ( ) ) { if ( TYPE_1 . METHOD_3 ( c ) ) { result . append ( STRING_1 ) ; } result . append ( TYPE_1 . toLowerCase ( c ) ) ; } return result . toString ( ) ; } | protected java.lang.String METHOD_1 ( java.lang.String name ) { java.lang.StringBuffer result = new java.lang.StringBuffer ( ) ; for ( char c : name . METHOD_2 ( ) ) { if ( TYPE_1 . METHOD_3 ( c ) ) { result . append ( STRING_1 ) ; } result . append ( TYPE_1 . toLowerCase ( c ) ) ; } return result . toString ( ) ; } |
public java.io.File METHOD_1 ( java.lang.String VAR_1 ) { java.lang.String fileName = VAR_1 ; java.io.File VAR_2 = new java.io.File ( STRING_1 ) ; if ( fileName == null ) { fileName = VAR_2 . getName ( ) ; } java.io.File VAR_3 = new java.io.File ( TYPE_1 . METHOD_2 ( STRING_2 ) ) ; java.io.File VAR_4 = new java.io.File ( VAR_3 , fileName ) ; try { TYPE_2 . METHOD_3 ( VAR_2 , VAR_4 ) ; } catch ( java.io.IOException VAR_5 ) { VAR_5 . METHOD_4 ( ) ; } return VAR_4 ; } | public static java.io.File METHOD_1 ( java.lang.String VAR_1 ) throws java.io.IOException { java.lang.String fileName = VAR_1 ; java.io.File VAR_2 = new java.io.File ( STRING_1 ) ; if ( fileName == null ) { fileName = VAR_2 . getName ( ) ; } java.io.File VAR_3 = new java.io.File ( TYPE_1 . METHOD_2 ( STRING_2 ) ) ; java.io.File VAR_4 = new java.io.File ( VAR_3 , fileName ) ; TYPE_2 . METHOD_3 ( VAR_2 , VAR_4 ) ; return VAR_4 ; } |
protected void METHOD_1 ( ) { TYPE_1 query = new TYPE_1 ( STRING_1 , new TYPE_2 ( getId ( ) ) ) ; VAR_1 = ( ( TYPE_3 ) ( VAR_2 ) ) . METHOD_2 ( ) . METHOD_3 ( query ) ; if ( ( VAR_1 ) == null ) throw new TYPE_4 ( ( STRING_2 + ( getId ( ) ) ) ) ; state = VAR_3 ; VAR_4 . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; } | protected void METHOD_1 ( ) { VAR_1 = ( ( TYPE_3 ) ( VAR_2 ) ) . METHOD_2 ( ) . METHOD_3 ( getId ( ) ) ; if ( ( VAR_1 ) == null ) throw new TYPE_4 ( ( STRING_2 + ( getId ( ) ) ) ) ; state = VAR_3 ; VAR_4 . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; } |
public void METHOD_1 ( android.view.View VAR_1 , int VAR_2 , java.lang.String VAR_3 ) { final TYPE_1 intent = new TYPE_1 ( this , VAR_2 , VAR_3 ) ; final TYPE_2 VAR_4 = TYPE_2 . METHOD_2 ( this , VAR_1 , VAR_3 ) ; METHOD_3 ( new TYPE_3 ( ) ) ; METHOD_4 ( intent , VAR_4 . METHOD_5 ( ) ) ; } | public void METHOD_1 ( android.view.View VAR_1 , int VAR_2 , java.lang.String VAR_3 ) { final TYPE_1 intent = new TYPE_1 ( this , VAR_2 , VAR_3 ) ; final TYPE_2 VAR_4 = TYPE_2 . METHOD_2 ( this , VAR_1 , VAR_3 ) ; METHOD_4 ( intent , VAR_4 . METHOD_5 ( ) ) ; } |
private void METHOD_1 ( TYPE_1 [ ] parameters ) { for ( int i = 0 ; i < ( parameters . length ) ; i ++ ) { VAR_1 . append ( ( ( ( parameters [ i ] . getType ( ) . METHOD_2 ( ) ) + STRING_1 ) + ( parameters [ i ] . getName ( ) ) ) ) ; if ( i < ( ( parameters . length ) - 1 ) ) { VAR_1 . append ( STRING_2 ) ; } } } | private void METHOD_1 ( TYPE_1 [ ] parameters ) { for ( int i = 0 ; i < ( parameters . length ) ; i ++ ) { VAR_1 . append ( parameters [ i ] . getType ( ) . METHOD_2 ( ) ) . append ( STRING_1 ) . append ( parameters [ i ] . getName ( ) ) ; if ( i < ( ( parameters . length ) - 1 ) ) { VAR_1 . append ( STRING_2 ) ; } } } |
public TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { double VAR_2 = VAR_3 ; TYPE_1 VAR_4 = null ; for ( TYPE_1 node : VAR_5 . values ( ) ) { double VAR_6 = VAR_1 . METHOD_2 ( VAR_7 ) ; if ( VAR_6 < VAR_2 ) { VAR_2 = VAR_6 ; VAR_4 = node ; } } if ( ( ( VAR_1 . METHOD_2 ( VAR_8 ) ) > ( VAR_9 ) ) || ( VAR_4 == null ) ) return null ; else return VAR_4 ; } | public TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { double VAR_2 = VAR_3 ; TYPE_1 VAR_4 = null ; for ( TYPE_1 node : VAR_5 . values ( ) ) { double VAR_6 = VAR_1 . METHOD_2 ( VAR_7 ) ; if ( VAR_6 < VAR_2 ) { VAR_2 = VAR_6 ; VAR_4 = node ; } } if ( VAR_4 == null ) return null ; else return VAR_4 ; } |
private static java.lang.String METHOD_1 ( int number , int VAR_1 ) { java.lang.String VAR_2 = java.lang.String . METHOD_2 ( number ) ; int VAR_3 = VAR_2 . length ( ) ; if ( ( VAR_2 . length ( ) ) < VAR_1 ) { for ( int i = 0 ; i < ( VAR_1 - VAR_3 ) ; i ++ ) { VAR_2 = "0" + VAR_2 ; } } return VAR_2 ; } | private static java.lang.String METHOD_1 ( long number , int VAR_1 ) { java.lang.String VAR_2 = java.lang.String . METHOD_2 ( number ) ; int VAR_3 = VAR_2 . length ( ) ; if ( ( VAR_2 . length ( ) ) < VAR_1 ) { for ( int i = 0 ; i < ( VAR_1 - VAR_3 ) ; i ++ ) { VAR_2 = "0" + VAR_2 ; } } return VAR_2 ; } |
public void METHOD_1 ( java.lang.String VAR_1 ) { java.lang.String VAR_2 = METHOD_2 ( ) ; ( VAR_3 [ id ] ) ++ ; TYPE_1 message = new TYPE_1 ( id , VAR_1 , VAR_2 , VAR_4 , METHOD_3 ( ) ) ; TYPE_1 VAR_5 = message ; METHOD_4 ( message ) ; VAR_6 . METHOD_5 ( ( ( STRING_1 + VAR_1 ) + STRING_2 ) ) ; } | public void METHOD_1 ( java.lang.String VAR_1 ) { java.lang.String VAR_2 = METHOD_2 ( ) ; ( VAR_3 [ id ] ) ++ ; TYPE_1 message = new TYPE_1 ( id , VAR_1 , VAR_2 , VAR_4 , METHOD_3 ( ) ) ; METHOD_4 ( message ) ; VAR_6 . METHOD_5 ( ( ( STRING_1 + VAR_1 ) + STRING_2 ) ) ; } |
public void METHOD_1 ( ) throws java.lang.Exception { VAR_1 . add ( VAR_2 ) ; final TYPE_1 VAR_3 = new TYPE_1 ( ) ; VAR_3 . METHOD_2 ( VAR_4 ) ; VAR_3 . METHOD_3 ( VAR_5 ) ; VAR_3 . METHOD_4 ( VAR_6 ) ; VAR_3 . METHOD_5 ( STRING_1 ) ; VAR_3 . METHOD_6 ( VAR_7 ) ; final TYPE_2 < TYPE_3 , TYPE_4 > result = VAR_3 . METHOD_7 ( ) ; TYPE_5 . METHOD_8 ( result . METHOD_9 ( ) ) ; VAR_8 = METHOD_10 ( result ) ; } | public void METHOD_1 ( ) throws java.lang.Exception { VAR_1 . add ( VAR_2 ) ; VAR_1 . add ( VAR_2 ) ; final TYPE_1 VAR_3 = new TYPE_1 ( ) ; VAR_3 . METHOD_2 ( VAR_4 ) ; VAR_3 . METHOD_3 ( VAR_5 ) ; VAR_3 . METHOD_4 ( VAR_6 ) ; VAR_3 . METHOD_5 ( STRING_1 ) ; VAR_3 . METHOD_6 ( VAR_7 ) ; final TYPE_2 < TYPE_3 , TYPE_4 > result = VAR_3 . METHOD_7 ( ) ; TYPE_5 . METHOD_8 ( result . METHOD_9 ( ) ) ; VAR_8 = METHOD_10 ( result ) ; } |
private TYPE_1 METHOD_1 ( ) { TYPE_2 VAR_1 = TYPE_3 . METHOD_2 ( ) . METHOD_3 ( VAR_2 ) . METHOD_4 ( VAR_3 ) ; TYPE_4 VAR_4 = TYPE_4 . METHOD_5 ( ) ; VAR_4 . METHOD_6 ( VAR_1 . build ( ) ) ; if ( ( ( this . VAR_5 ) != null ) && ( ( this . context ) == null ) ) { try { METHOD_7 ( ) ; } catch ( TYPE_5 VAR_6 ) { java.lang.System.out.println ( STRING_1 ) ; } } return VAR_4 . build ( ) ; } | private TYPE_1 METHOD_1 ( ) { TYPE_2 VAR_1 = TYPE_3 . METHOD_2 ( ) . METHOD_3 ( VAR_2 ) . METHOD_4 ( VAR_3 ) ; TYPE_4 VAR_4 = TYPE_4 . METHOD_5 ( ) ; VAR_4 . METHOD_6 ( VAR_1 . build ( ) ) ; if ( ( this . VAR_5 ) != null ) { METHOD_7 ( VAR_4 ) ; } return VAR_4 . build ( ) ; } |
private void METHOD_1 ( TYPE_1 VAR_1 , java.lang.Object VAR_2 ) { int VAR_3 = ( ( id ) == null ) ? 1 : 0 ; TYPE_2 . METHOD_2 ( STRING_1 , ( STRING_2 + VAR_3 ) ) ; try { for ( TYPE_3 VAR_4 : VAR_5 ) { VAR_6 . METHOD_3 ( VAR_1 , ( ( VAR_4 . index ) + VAR_3 ) , VAR_7 . get ( VAR_2 ) ) ; } } catch ( TYPE_4 VAR_8 ) { VAR_8 . METHOD_4 ( ) ; throw new TYPE_5 ( VAR_8 ) ; } } | private void METHOD_1 ( TYPE_1 VAR_1 , java.lang.Object VAR_2 ) { int VAR_3 = ( ( id ) == null ) ? 1 : 0 ; try { for ( TYPE_3 VAR_4 : VAR_5 ) { VAR_6 . METHOD_3 ( VAR_1 , ( ( VAR_4 . index ) + VAR_3 ) , VAR_7 . get ( VAR_2 ) ) ; } } catch ( TYPE_4 VAR_8 ) { VAR_8 . METHOD_4 ( ) ; throw new TYPE_5 ( VAR_8 ) ; } } |
public void METHOD_1 ( float VAR_1 ) { VAR_2 -= VAR_1 ; if ( this . equals ( VAR_3 . METHOD_2 ( ) . METHOD_3 ( ) . METHOD_4 ( ) ) ) { VAR_3 . METHOD_5 ( ( ( int ) ( VAR_1 ) ) ) ; } else { VAR_3 . METHOD_6 ( ( ( int ) ( VAR_1 ) ) ) ; } if ( ( VAR_2 ) <= 0 ) { VAR_2 = 0 ; } } | public void METHOD_1 ( float VAR_1 ) { VAR_2 -= VAR_1 ; if ( this . equals ( VAR_3 . METHOD_2 ( ) . METHOD_3 ( ) . METHOD_4 ( ) ) ) { VAR_3 . METHOD_5 ( ( - ( ( int ) ( VAR_1 ) ) ) ) ; } else { VAR_3 . METHOD_6 ( ( - ( ( int ) ( VAR_1 ) ) ) ) ; } if ( ( VAR_2 ) <= 0 ) { VAR_2 = 0 ; } } |
public void METHOD_1 ( ) { new TYPE_1 ( ) . METHOD_2 ( true ) ; TYPE_2 VAR_1 = new TYPE_2 ( new TYPE_3 ( ) , true ) ; VAR_1 . METHOD_3 ( true ) ; VAR_1 . METHOD_4 ( new TYPE_4 ( ) { public void METHOD_5 ( TYPE_5 VAR_2 ) { java.lang.System.exit ( 0 ) ; } } ) ; VAR_1 . METHOD_2 ( true ) ; } | public void METHOD_1 ( ) { new TYPE_1 ( ) . METHOD_2 ( true ) ; TYPE_2 VAR_1 = new TYPE_2 ( new TYPE_3 ( ) , true ) ; VAR_1 . METHOD_4 ( new TYPE_4 ( ) { public void METHOD_5 ( TYPE_5 VAR_2 ) { java.lang.System.exit ( 0 ) ; } } ) ; VAR_1 . METHOD_2 ( true ) ; } |
public TYPE_1 METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; VAR_1 . put ( VAR_2 , id ) ; VAR_1 . put ( VAR_3 , name ) ; VAR_1 . put ( VAR_4 , VAR_5 ) ; VAR_1 . put ( VAR_6 , VAR_7 ) ; return VAR_1 ; } | public TYPE_1 METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; if ( ( id ) > ( - 1 ) ) { VAR_1 . put ( VAR_2 , id ) ; } VAR_1 . put ( VAR_3 , name ) ; VAR_1 . put ( VAR_4 , VAR_5 ) ; VAR_1 . put ( VAR_6 , VAR_7 ) ; return VAR_1 ; } |
public static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . METHOD_2 ( VAR_1 . METHOD_3 ( ) ) ; VAR_2 . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; VAR_2 . METHOD_6 ( VAR_1 . METHOD_7 ( ) ) ; VAR_2 . METHOD_8 ( VAR_1 . METHOD_9 ( ) ) ; VAR_2 . METHOD_10 ( VAR_1 . METHOD_11 ( ) ) ; return VAR_2 ; } | public static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . METHOD_2 ( VAR_1 . METHOD_3 ( ) ) ; VAR_2 . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; VAR_2 . METHOD_6 ( VAR_1 . METHOD_7 ( ) ) ; VAR_2 . METHOD_10 ( VAR_1 . METHOD_11 ( ) ) ; return VAR_2 ; } |
public static short [ ] METHOD_1 ( int n ) { short [ ] VAR_1 = new short [ INT_1 ] ; for ( int i = INT_2 ; i >= 0 ; i -- ) { VAR_1 [ i ] = ( ( short ) ( n / ( ( int ) ( java.lang.Math.pow ( INT_3 , i ) ) ) ) ) ; } return VAR_1 ; } | public static short [ ] METHOD_1 ( int n ) { short [ ] VAR_1 = new short [ INT_1 ] ; for ( int i = INT_2 ; i >= 0 ; i -- ) { VAR_1 [ i ] = ( ( short ) ( n / ( ( int ) ( java.lang.Math.pow ( INT_3 , i ) ) ) ) ) ; n %= java.lang.Math.pow ( INT_3 , i ) ; } return VAR_1 ; } |
private static void METHOD_1 ( TYPE_1 VAR_1 ) { if ( VAR_1 != null ) { VAR_2 = VAR_1 ; TYPE_2 . METHOD_2 ( TYPE_3 . METHOD_3 ( ) . METHOD_4 ( ) ) ; VAR_3 = true ; TYPE_3 . METHOD_3 ( ) . METHOD_4 ( ) . METHOD_5 ( ) ; TYPE_3 . METHOD_3 ( ) . METHOD_6 ( ) . METHOD_7 ( ) ; TYPE_4 . METHOD_8 ( new TYPE_5 ( ) ) ; VAR_4 . info ( STRING_1 ) ; } } | private static void METHOD_1 ( TYPE_1 VAR_1 ) { if ( VAR_1 != null ) { VAR_2 = VAR_1 ; VAR_3 = true ; TYPE_2 . METHOD_2 ( TYPE_3 . METHOD_3 ( ) . METHOD_4 ( ) ) ; TYPE_3 . METHOD_3 ( ) . METHOD_4 ( ) . METHOD_5 ( ) ; TYPE_3 . METHOD_3 ( ) . METHOD_6 ( ) . METHOD_7 ( ) ; TYPE_4 . METHOD_8 ( new TYPE_5 ( ) ) ; VAR_4 . info ( STRING_1 ) ; } } |
public TYPE_1 < ? > build ( ) { if ( ( value ) == null ) { value = VAR_1 . build ( VAR_2 ) ; TYPE_2 . METHOD_1 ( value , STRING_1 , VAR_1 ) ; TYPE_2 . METHOD_2 ( VAR_2 . METHOD_3 ( ) , ( STRING_2 + STRING_3 ) , VAR_1 , VAR_2 . METHOD_4 ( ) ) ; } return TYPE_3 . METHOD_5 ( value ) ; } | final TYPE_1 < ? > build ( ) { if ( ( value ) == null ) { value = VAR_1 . build ( VAR_2 ) ; TYPE_2 . METHOD_1 ( value , STRING_1 , VAR_1 ) ; TYPE_2 . METHOD_2 ( VAR_2 . METHOD_3 ( ) , ( STRING_2 + STRING_3 ) , VAR_1 , VAR_2 . METHOD_4 ( ) ) ; } return TYPE_3 . METHOD_5 ( value ) ; } |
public void METHOD_1 ( ) { long startTime = TYPE_1 . METHOD_2 ( ) ; long VAR_1 ; int i = 0 ; while ( ! ( VAR_2 . equals ( STRING_1 ) ) ) { VAR_1 = TYPE_1 . METHOD_2 ( ) ; if ( ( startTime - VAR_1 ) > ( ( i * ( VAR_3 ) ) + INT_1 ) ) { java.lang.System.out.println ( STRING_2 ) ; VAR_4 . METHOD_3 ( VAR_5 ) ; } } java.lang.System.out.println ( STRING_3 ) ; } | public void METHOD_1 ( ) { long startTime = TYPE_1 . METHOD_2 ( ) ; long VAR_1 ; int i = 0 ; while ( ! ( VAR_2 . equals ( STRING_1 ) ) ) { VAR_1 = TYPE_1 . METHOD_2 ( ) ; if ( ( startTime - VAR_1 ) > ( ( i * ( VAR_3 ) ) + INT_1 ) ) { java.lang.System.out.println ( STRING_2 ) ; VAR_4 . METHOD_3 ( VAR_5 ) ; } i ++ ; } java.lang.System.out.println ( STRING_3 ) ; } |
private int METHOD_1 ( int VAR_1 ) { switch ( VAR_1 ) { case INT_1 : return INT_1 ; case INT_2 : return INT_3 ; case INT_3 : return INT_4 ; case INT_5 : return INT_6 ; case INT_7 : return INT_8 ; case INT_4 : return INT_9 ; case INT_10 : return INT_11 ; case INT_12 : return INT_13 ; case INT_6 : return INT_14 ; default : return 0 ; } } | private int METHOD_1 ( int VAR_1 ) { switch ( VAR_1 ) { case 1 : return 1 ; case INT_1 : return INT_1 ; case INT_2 : return INT_3 ; case INT_3 : return INT_4 ; case INT_5 : return INT_6 ; case INT_7 : return INT_8 ; case INT_4 : return INT_9 ; case INT_10 : return INT_11 ; case INT_12 : return INT_13 ; default : return INT_14 ; } } |
public long METHOD_1 ( java.util.ArrayList array , java.lang.String VAR_1 , int id ) { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . put ( VAR_1 , METHOD_2 ( array ) ) ; int index = METHOD_3 ( VAR_3 ) . METHOD_4 ( VAR_3 ) ; java.lang.String VAR_4 = METHOD_3 ( VAR_3 ) . getString ( index ) ; return VAR_5 . update ( VAR_6 , VAR_2 , ( ( ( VAR_3 ) + STRING_1 ) + VAR_4 ) , null ) ; } | public long METHOD_1 ( java.util.ArrayList array , java.lang.String VAR_1 , int id ) { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . put ( VAR_1 , METHOD_2 ( array ) ) ; return VAR_5 . update ( VAR_6 , VAR_2 , ( ( ( VAR_3 ) + STRING_1 ) + id ) , null ) ; } |
public boolean METHOD_1 ( ) { boolean VAR_1 = false ; java.lang.String [ ] VAR_2 = VAR_3 . get ( 0 ) . split ( STRING_1 ) ; java.lang.String VAR_4 = VAR_2 [ ( ( VAR_2 . length ) - 1 ) ] ; if ( VAR_4 . METHOD_2 ( VAR_5 ) ) { VAR_1 = true ; } return VAR_1 ; } | public boolean METHOD_1 ( ) { boolean VAR_1 = false ; if ( ( ( VAR_3 ) != null ) && ( ( VAR_3 . size ( ) ) > 0 ) ) { java.lang.String [ ] VAR_2 = VAR_3 . get ( 0 ) . split ( STRING_1 ) ; java.lang.String VAR_4 = VAR_2 [ ( ( VAR_2 . length ) - 1 ) ] ; if ( VAR_4 . METHOD_2 ( VAR_5 ) ) { VAR_1 = true ; } } return VAR_1 ; } |
public static java.util.LinkedList < TYPE_1 > METHOD_1 ( java.util.LinkedList < TYPE_2 > p ) { java.util.LinkedList < TYPE_1 > VAR_1 = new java.util.LinkedList < TYPE_1 > ( ) ; java.util.Iterator < TYPE_2 > VAR_2 = p . iterator ( ) ; while ( VAR_2 . METHOD_2 ( ) ) VAR_1 . add ( new TYPE_1 ( VAR_2 . METHOD_3 ( ) ) ) ; return VAR_1 ; } | public static java.util.LinkedList < TYPE_1 > METHOD_1 ( java.util.LinkedList < TYPE_2 > p ) { java.util.LinkedList < TYPE_1 > VAR_1 = new java.util.LinkedList < TYPE_1 > ( ) ; java.util.Iterator < TYPE_2 > VAR_2 = p . iterator ( ) ; while ( VAR_2 . METHOD_2 ( ) ) VAR_1 . add ( new TYPE_1 ( ( ( TYPE_2 ) ( VAR_2 . METHOD_3 ( ) ) ) ) ) ; return VAR_1 ; } |
public TYPE_1 METHOD_1 ( int VAR_1 ) { java.lang.StringBuilder VAR_2 = new java.lang.StringBuilder ( number ) ; for ( int i = 0 ; i < VAR_1 ; i ++ ) { VAR_2 . METHOD_2 ( 0 , CHAR_1 ) ; } return new TYPE_1 ( VAR_2 . toString ( ) ) ; } | public TYPE_1 METHOD_1 ( int VAR_1 ) { java.lang.StringBuilder VAR_2 = new java.lang.StringBuilder ( number ) ; for ( int i = 0 ; i < VAR_1 ; i ++ ) { VAR_2 . METHOD_2 ( number . length ( ) , CHAR_1 ) ; } return new TYPE_1 ( VAR_2 . toString ( ) ) ; } |
public void METHOD_1 ( ) { if ( METHOD_2 ( ) ) { if ( ( METHOD_3 ( this ) ) || ( METHOD_4 ( this ) ) ) { METHOD_5 ( VAR_1 ) ; } else { for ( TYPE_1 VAR_2 : VAR_3 ) VAR_2 . METHOD_1 ( this ) ; } } } | public void METHOD_1 ( ) { if ( METHOD_2 ( ) ) { if ( ( METHOD_3 ( this ) ) || ( METHOD_4 ( this ) ) ) { METHOD_5 ( VAR_1 ) ; } else { for ( int i = 0 ; i < ( VAR_3 . size ( ) ) ; ++ i ) VAR_3 . get ( i ) . METHOD_1 ( this ) ; } } } |
public static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 , TYPE_3 ... VAR_2 ) { if ( ( VAR_2 . length ) == 0 ) { return new TYPE_1 ( VAR_1 , 0 ) ; } else { TYPE_1 array = new TYPE_1 ( VAR_1 , VAR_2 . length ) ; int i = 0 ; for ( TYPE_3 VAR_3 : VAR_2 ) { array . set ( i , VAR_3 ) ; } return array ; } } | public static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 , TYPE_3 ... VAR_2 ) { if ( ( VAR_2 . length ) == 0 ) { return new TYPE_1 ( VAR_1 , 0 ) ; } else { TYPE_1 array = new TYPE_1 ( VAR_1 , VAR_2 . length ) ; int i = 0 ; for ( TYPE_3 VAR_3 : VAR_2 ) { array . set ( i , VAR_3 ) ; i ++ ; } return array ; } } |
public boolean METHOD_1 ( TYPE_1 key , TYPE_2 value , TYPE_3 VAR_1 ) { final long start = TYPE_4 . METHOD_2 ( ) ; final TYPE_5 < java.lang.Boolean > f = METHOD_3 ( key , value , VAR_1 , true , false ) ; try { boolean VAR_2 = TYPE_6 . METHOD_4 ( f . get ( ) ) ; if ( VAR_3 ) { TYPE_6 . METHOD_5 ( start , VAR_2 ) ; } return VAR_2 ; } catch ( java.lang.Throwable VAR_4 ) { throw TYPE_7 . METHOD_6 ( VAR_4 , VAR_5 class ) ; } } | public boolean METHOD_1 ( TYPE_1 key , TYPE_2 value , TYPE_3 VAR_1 ) { final long start = TYPE_4 . METHOD_2 ( ) ; final TYPE_5 < java.lang.Boolean > f = METHOD_3 ( key , value , VAR_1 , true , false ) ; try { boolean VAR_2 = f . get ( ) ; if ( VAR_3 ) { TYPE_6 . METHOD_5 ( start , VAR_2 ) ; } return VAR_2 ; } catch ( java.lang.Throwable VAR_4 ) { throw TYPE_7 . METHOD_6 ( VAR_4 , VAR_5 class ) ; } } |
public boolean METHOD_1 ( ) { return ( VAR_1 . contains ( VAR_2 . METHOD_2 ( ) ) ) && ( ( ( ( VAR_3 ) || ( VAR_4 ) ) || ( ( VAR_5 . select ( ) . count ( ) ) == INT_1 ) ) || ( ( VAR_6 ) && ( ( VAR_5 . select ( ) . id ( VAR_7 ) . count ( ) ) > 1 ) ) ) ; } | public boolean METHOD_1 ( ) { return ( VAR_1 . contains ( VAR_2 . METHOD_2 ( ) ) ) && ( ( ( ( VAR_3 ) || ( VAR_4 ) ) || ( ( VAR_5 . select ( ) . count ( ) ) == INT_1 ) ) || ( ( VAR_6 ) && ( ( VAR_5 . select ( ) . id ( VAR_7 ) . count ( ) ) >= 1 ) ) ) ; } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; VAR_3 = new TYPE_2 ( ) ; VAR_4 = ( ( TYPE_3 ) ( METHOD_3 ( VAR_5 ) ) ) ; VAR_4 . setText ( VAR_3 . METHOD_4 ( ) ) ; VAR_6 = ( ( TYPE_4 ) ( METHOD_3 ( VAR_7 ) ) ) ; METHOD_5 ( ) ; VAR_8 = STRING_1 + ( VAR_3 . METHOD_4 ( ) ) ; } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; VAR_3 = new TYPE_2 ( ) ; VAR_4 = ( ( TYPE_3 ) ( METHOD_3 ( VAR_5 ) ) ) ; VAR_4 . setText ( VAR_3 . METHOD_4 ( ) ) ; METHOD_5 ( ) ; } |
public static java.lang.String METHOD_1 ( java.lang.String TYPE_1 ) throws java.lang.Exception { int VAR_1 = TYPE_1 . METHOD_2 ( CHAR_1 ) ; int VAR_2 = TYPE_1 . METHOD_2 ( CHAR_2 ) ; if ( ( VAR_1 == ( - 1 ) ) && ( VAR_2 == ( - 1 ) ) ) throw new java.lang.Exception ( ( ( STRING_1 + TYPE_1 ) + STRING_2 ) ) ; return TYPE_1 . substring ( 0 , TYPE_2 . METHOD_3 ( VAR_1 , VAR_2 ) ) ; } | public static java.lang.String METHOD_1 ( java.lang.String TYPE_1 ) throws java.lang.Exception { int VAR_1 = TYPE_1 . METHOD_2 ( CHAR_1 ) ; int VAR_2 = TYPE_1 . METHOD_2 ( CHAR_2 ) ; if ( ( VAR_1 == ( - 1 ) ) && ( VAR_2 == ( - 1 ) ) ) throw new java.lang.Exception ( ( ( STRING_1 + TYPE_1 ) + STRING_2 ) ) ; return TYPE_1 . substring ( 0 , ( ( TYPE_2 . METHOD_3 ( VAR_1 , VAR_2 ) ) + 1 ) ) ; } |
void METHOD_1 ( ) { METHOD_2 ( ) ; if ( ( VAR_1 ) == 1 ) { } else if ( ( VAR_1 ) == INT_1 ) { } else if ( ( VAR_1 ) == INT_2 ) { } else if ( ( VAR_1 ) == INT_3 ) { } } | void METHOD_1 ( ) { METHOD_2 ( ) ; if ( ( VAR_1 ) == 1 ) { } else if ( ( VAR_1 ) == INT_1 ) { } else if ( ( VAR_1 ) == INT_2 ) { } else if ( ( VAR_1 ) == INT_3 ) { } else { } } |
public int METHOD_1 ( int position ) { if ( position == 0 ) return VAR_1 ; if ( position == 1 ) return VAR_2 ; if ( position == INT_1 ) return VAR_3 ; if ( position == INT_2 ) return VAR_4 ; if ( position == INT_3 ) return VAR_5 ; if ( position == INT_4 ) return VAR_6 ; return VAR_7 ; } | public int METHOD_1 ( int position ) { if ( position == 0 ) return VAR_1 ; if ( position == 1 ) return VAR_2 ; if ( position == INT_1 ) return VAR_3 ; if ( position == INT_2 ) return VAR_4 ; if ( position == INT_3 ) return VAR_6 ; return VAR_7 ; } |
private void METHOD_1 ( TYPE_1 msg ) throws TYPE_2 { TYPE_3 VAR_1 = new TYPE_3 ( parameters ) ; try { VAR_1 . METHOD_1 ( msg ) ; } catch ( TYPE_4 VAR_2 ) { TYPE_5 . error ( VAR_2 . METHOD_2 ( ) , VAR_2 ) ; throw new TYPE_2 ( VAR_2 . METHOD_2 ( ) , VAR_2 ) ; } } | private void METHOD_1 ( TYPE_1 msg ) { TYPE_3 VAR_1 = new TYPE_3 ( parameters ) ; try { VAR_1 . METHOD_1 ( msg ) ; } catch ( TYPE_4 VAR_2 ) { TYPE_5 . error ( VAR_2 . METHOD_2 ( ) , VAR_2 ) ; } catch ( java.lang.Throwable VAR_2 ) { TYPE_5 . error ( VAR_2 . METHOD_2 ( ) , VAR_2 ) ; } } |
public final TYPE_1 METHOD_1 ( java.lang.String name , TYPE_2 VAR_1 , int VAR_2 , int VAR_3 , int VAR_4 , int VAR_5 , int VAR_6 , int VAR_7 , int VAR_8 ) { TYPE_1 VAR_9 = new TYPE_1 ( name , VAR_1 , VAR_2 , VAR_3 , VAR_4 , VAR_5 , VAR_6 , VAR_7 , VAR_8 ) ; if ( TYPE_3 . METHOD_2 ( new TYPE_4 ( VAR_9 ) ) ) return null ; return VAR_9 ; } | public final TYPE_1 METHOD_1 ( java.lang.String name , TYPE_2 VAR_1 , int VAR_2 , int VAR_3 , int VAR_4 , int VAR_5 , int VAR_6 , int VAR_7 , int VAR_8 ) { TYPE_1 VAR_9 = new TYPE_1 ( name , VAR_1 , VAR_2 , VAR_3 , VAR_4 , VAR_5 , VAR_6 , VAR_7 , VAR_8 ) ; if ( TYPE_3 . METHOD_2 ( new TYPE_4 ( VAR_9 ) ) ) ; return null ; return VAR_9 ; } |
public static double METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , java.lang.String VAR_3 ) { java.util.List < java.lang.Double > VAR_4 = TYPE_3 . METHOD_2 ( VAR_1 , VAR_2 , VAR_3 ) ; double VAR_5 = 0.0 ; for ( java.lang.Double VAR_6 : VAR_4 ) VAR_5 += VAR_6 ; VAR_5 /= VAR_4 . size ( ) ; return VAR_5 ; } | public static double METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , java.lang.String VAR_3 ) { java.util.List < java.lang.Double > VAR_4 = TYPE_3 . METHOD_2 ( VAR_1 , VAR_2 , VAR_3 ) ; if ( VAR_4 . isEmpty ( ) ) return 0 ; double VAR_5 = 0.0 ; for ( java.lang.Double VAR_6 : VAR_4 ) VAR_5 += VAR_6 ; VAR_5 /= VAR_4 . size ( ) ; return VAR_5 ; } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { this . VAR_2 = ( ( TYPE_2 ) ( TYPE_3 . METHOD_2 ( list . get ( index ) , VAR_3 class ) ) ) ; this . VAR_2 . METHOD_3 ( VAR_4 , VAR_4 . METHOD_4 ( ) , event ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { this . VAR_2 = ( ( TYPE_2 ) ( TYPE_3 . METHOD_2 ( list . get ( index ) , VAR_3 class ) ) ) ; if ( ( VAR_2 ) != null ) { this . VAR_2 . METHOD_3 ( VAR_4 , VAR_4 . METHOD_4 ( ) , event ) ; } } |
public void METHOD_1 ( ) throws TYPE_1 , TYPE_2 { final long VAR_1 = INT_1 ; final long VAR_2 = INT_2 ; TYPE_3 VAR_3 = new TYPE_3 ( VAR_1 ) ; try { TYPE_4 buffer = VAR_3 . METHOD_2 ( ( ( ( int ) ( VAR_1 ) ) + 1 ) , VAR_2 ) ; fail ( STRING_1 ) ; } catch ( TYPE_5 VAR_4 ) { } } | public void METHOD_1 ( ) throws java.lang.Exception { final long VAR_1 = INT_1 ; final long VAR_2 = INT_2 ; TYPE_3 VAR_3 = new TYPE_3 ( VAR_1 ) ; try { VAR_3 . METHOD_2 ( ( ( ( int ) ( VAR_1 ) ) + 1 ) , VAR_2 ) ; fail ( STRING_1 ) ; } catch ( TYPE_5 VAR_4 ) { } } |
private void METHOD_1 ( int i ) { assert ( VAR_1 [ i ] ) == null ; assert ( VAR_2 [ i ] ) == ( VAR_3 ) ; assert ( VAR_4 [ i ] ) == ( VAR_3 ) ; VAR_1 [ i ] = new int [ ] { TYPE_1 . METHOD_2 ( VAR_2 [ i ] , INT_1 ) } ; } | private void METHOD_1 ( int i ) { assert ( VAR_1 [ i ] ) == null ; assert ( VAR_2 [ i ] ) != ( VAR_3 ) ; assert ( VAR_4 [ i ] ) != ( VAR_3 ) ; VAR_1 [ i ] = new int [ ] { TYPE_1 . METHOD_2 ( VAR_2 [ i ] , INT_1 ) } ; } |
void METHOD_1 ( TYPE_1 VAR_1 ) throws java.io.IOException { if ( ( VAR_2 ) != null ) { java.lang.System.out.println ( VAR_2 . id ) ; VAR_2 = null ; } VAR_2 = this ; VAR_3 . METHOD_2 ( STRING_1 , id , VAR_4 , element ) ; value = VAR_4 . METHOD_3 ( element ) ; VAR_3 . METHOD_2 ( STRING_2 , id , value . getClass ( ) ) ; if ( ( value ) == null ) { throw new TYPE_2 ( ( STRING_3 + ( element ) ) ) ; } } | void METHOD_1 ( TYPE_1 VAR_1 ) throws java.io.IOException { if ( ( VAR_2 ) != null ) { VAR_2 = null ; } VAR_2 = this ; value = VAR_4 . METHOD_3 ( element ) ; if ( ( value ) == null ) { throw new TYPE_2 ( ( STRING_3 + ( element ) ) ) ; } } |
public void init ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { TYPE_3 . METHOD_1 ( STRING_1 ) ; TYPE_4 . METHOD_2 ( STRING_2 ) ; TYPE_4 . METHOD_3 ( ) . info ( ( STRING_3 + ( METHOD_4 ( ) ) ) ) ; VAR_3 = METHOD_5 ( ) ; VAR_1 . METHOD_6 ( STRING_4 ) ; VAR_1 . METHOD_7 ( false ) ; VAR_1 . METHOD_8 ( VAR_4 ) ; VAR_1 . METHOD_9 ( VAR_5 ) ; METHOD_10 ( ) . add ( new TYPE_5 ( ) ) ; } | public void init ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { TYPE_3 . METHOD_1 ( STRING_1 ) ; TYPE_4 . METHOD_2 ( STRING_2 ) ; TYPE_4 . METHOD_3 ( ) . info ( ( STRING_3 + ( METHOD_4 ( ) ) ) ) ; VAR_1 . METHOD_6 ( STRING_4 ) ; VAR_1 . METHOD_7 ( false ) ; VAR_1 . METHOD_8 ( VAR_4 ) ; VAR_1 . METHOD_9 ( VAR_5 ) ; METHOD_10 ( ) . add ( new TYPE_5 ( ) ) ; } |
public boolean METHOD_1 ( long VAR_1 ) { METHOD_2 ( ) ; java.util.Collections.sort ( VAR_2 ) ; for ( TYPE_1 VAR_3 : VAR_2 ) java.lang.System.out.println ( VAR_3 ) ; if ( ( ( VAR_2 ) == null ) || ( ( VAR_2 . size ( ) ) == 0 ) ) { return true ; } if ( ( VAR_2 . size ( ) ) < INT_1 ) { return true ; } else { return VAR_1 > ( VAR_2 . get ( INT_2 ) . METHOD_3 ( ) ) ; } } | public boolean METHOD_1 ( long VAR_1 ) { METHOD_2 ( ) ; java.util.Collections.sort ( VAR_2 ) ; if ( ( ( VAR_2 ) == null ) || ( ( VAR_2 . size ( ) ) == 0 ) ) { return true ; } if ( ( VAR_2 . size ( ) ) < INT_1 ) { return true ; } else { return VAR_1 > ( VAR_2 . get ( INT_2 ) . METHOD_3 ( ) ) ; } } |
public void METHOD_1 ( ) throws java.lang.Exception { final long VAR_1 = - 1 ; final long VAR_2 = - 1 ; VAR_3 . METHOD_2 ( VAR_4 , VAR_5 , VAR_6 , context , VAR_1 , VAR_2 , VAR_7 ) ; TYPE_1 . METHOD_3 ( VAR_7 , TYPE_1 . METHOD_4 ( ) ) . METHOD_5 ( VAR_4 , VAR_1 , VAR_8 , VAR_6 , context ) ; TYPE_1 . METHOD_3 ( VAR_7 , TYPE_1 . METHOD_4 ( ) ) . METHOD_6 ( VAR_4 , VAR_2 , VAR_8 , VAR_6 , true , context ) ; } | public void METHOD_1 ( ) throws java.lang.Exception { final long VAR_1 = - 1 ; final long VAR_2 = - 1 ; VAR_3 . METHOD_2 ( VAR_4 , VAR_5 , VAR_6 , context , VAR_1 , VAR_2 , VAR_7 ) ; METHOD_3 ( VAR_7 , METHOD_4 ( ) ) . METHOD_5 ( VAR_4 , VAR_1 , VAR_8 , VAR_6 , context ) ; METHOD_3 ( VAR_7 , METHOD_4 ( ) ) . METHOD_6 ( VAR_4 , VAR_2 , VAR_8 , VAR_6 , true , context ) ; } |
public void METHOD_1 ( ) throws java.lang.Exception { ( ( TYPE_1 ) ( TYPE_2 . METHOD_2 ( ) ) ) . METHOD_3 ( this ) ; TYPE_3 VAR_1 = new TYPE_4 ( VAR_2 , VAR_3 ) ; VAR_4 = new TYPE_5 ( TYPE_6 . getContext ( ) , VAR_1 , VAR_5 , VAR_3 , VAR_6 , VAR_7 , VAR_8 ) ; } | public void METHOD_1 ( ) throws java.lang.Exception { ( ( TYPE_1 ) ( TYPE_2 . METHOD_2 ( ) ) ) . METHOD_3 ( this ) ; VAR_1 = new TYPE_4 ( VAR_2 , VAR_3 ) ; VAR_4 = new TYPE_5 ( TYPE_6 . getContext ( ) , VAR_1 , VAR_5 , VAR_3 , VAR_6 , VAR_7 , VAR_8 ) ; } |
public void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 temp = new TYPE_1 ( VAR_1 , null ) ; if ( this . isEmpty ( ) ) { this . VAR_2 = temp ; } else { temp . METHOD_2 ( VAR_2 ) ; this . VAR_2 = temp ; } } | public void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 temp = new TYPE_1 ( VAR_1 , null ) ; if ( this . isEmpty ( ) ) { this . VAR_2 = temp ; } else { temp . METHOD_2 ( this . VAR_2 ) ; this . VAR_2 = temp ; } } |
public boolean METHOD_1 ( float value , float VAR_1 ) { if ( VAR_1 < 0.0F ) { throw new TYPE_1 ( STRING_1 ) ; } if ( ( java.lang.Math.abs ( ( ( this . length ( ) ) - 1.0F ) ) ) < VAR_1 ) { return true ; } return false ; } | public boolean METHOD_1 ( float value , float VAR_1 ) { if ( VAR_1 < 0.0F ) { throw new TYPE_1 ( STRING_1 ) ; } if ( ( java.lang.Math.abs ( ( ( this . length ( ) ) - value ) ) ) < VAR_1 ) { return true ; } return false ; } |
private final void put ( TYPE_1 VAR_1 , long VAR_2 ) { TYPE_2 . METHOD_1 ( null , VAR_2 , TYPE_2 . METHOD_2 ( VAR_1 , VAR_3 ) ) ; for ( int i = 1 ; i < INT_1 ; i ++ ) { TYPE_2 . METHOD_3 ( ( VAR_2 + ( i < < INT_2 ) ) , TYPE_2 . METHOD_2 ( VAR_1 , ( ( VAR_3 ) + ( i < < INT_2 ) ) ) ) ; } } | private final void put ( TYPE_1 VAR_1 , long VAR_2 ) { for ( int i = 0 ; i < INT_1 ; i ++ ) { TYPE_2 . METHOD_1 ( null , ( VAR_2 + ( i < < INT_2 ) ) , TYPE_2 . METHOD_2 ( VAR_1 , ( ( VAR_3 ) + ( i < < INT_2 ) ) ) ) ; } } |
public boolean METHOD_1 ( TYPE_1 VAR_1 ) { final int VAR_2 = VAR_1 . METHOD_2 ( ) ; if ( VAR_2 == ( VAR_3 ) ) { return ( VAR_1 . METHOD_3 ( ) ) < ( VAR_4 ) ; } return super . METHOD_1 ( VAR_1 ) ; } | public boolean METHOD_1 ( TYPE_1 VAR_1 ) { final int VAR_2 = VAR_1 . METHOD_2 ( ) ; if ( VAR_2 == ( VAR_3 ) ) { return ( ( VAR_1 . METHOD_3 ( ) ) < ( VAR_4 ) ) && ( super . METHOD_1 ( VAR_1 ) ) ; } return super . METHOD_1 ( VAR_1 ) ; } |
public static void main ( java.lang.String [ ] args ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_1 ( ) ; TYPE_2 VAR_2 = VAR_1 . METHOD_2 ( ) ; VAR_1 . METHOD_3 ( VAR_2 ) ; VAR_1 . METHOD_4 ( VAR_2 , 0 ) ; VAR_1 . METHOD_4 ( VAR_2 , 1 ) ; new TYPE_3 ( STRING_1 ) ; } | public static void main ( java.lang.String [ ] args ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_1 ( ) ; TYPE_2 VAR_2 = VAR_1 . METHOD_2 ( ) ; VAR_1 . METHOD_3 ( VAR_2 ) ; VAR_1 . METHOD_4 ( VAR_2 , 0 ) ; VAR_1 . METHOD_4 ( VAR_2 , 1 ) ; } |
private void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 VAR_2 = new TYPE_1 ( this ) ; VAR_2 . METHOD_2 ( STRING_1 ) . METHOD_3 ( ( VAR_1 + STRING_2 ) ) . METHOD_4 ( STRING_3 , new TYPE_2 ( ) { public void METHOD_5 ( TYPE_3 VAR_3 , int i ) { METHOD_6 ( ) ; } } ) . METHOD_7 ( STRING_4 , null ) ; TYPE_4 VAR_4 = VAR_2 . METHOD_8 ( ) ; VAR_4 . show ( ) ; } | private void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 VAR_2 = new TYPE_1 ( this ) ; VAR_2 . METHOD_2 ( STRING_1 ) . METHOD_3 ( ( VAR_1 + STRING_2 ) ) . METHOD_4 ( STRING_3 , new TYPE_2 ( ) { public void METHOD_5 ( TYPE_3 VAR_3 , int i ) { METHOD_6 ( ) ; } } ) ; TYPE_4 VAR_4 = VAR_2 . METHOD_8 ( ) ; VAR_4 . show ( ) ; } |
public void init ( byte VAR_1 , long VAR_2 , java.lang.String VAR_3 , int startTime , int endTime , java.lang.Object value , long VAR_4 , long VAR_5 ) { super . init ( VAR_6 , VAR_1 , TYPE_1 . id ( ) , VAR_2 , VAR_3 , startTime , endTime , value ) ; this . VAR_4 = VAR_4 ; this . VAR_5 = VAR_5 ; } | public void init ( int VAR_1 , long VAR_2 , java.lang.String VAR_3 , int startTime , int endTime , java.lang.Object value , long VAR_4 , long VAR_5 ) { super . init ( VAR_6 , VAR_1 , TYPE_1 . id ( ) , VAR_2 , VAR_3 , startTime , endTime , value ) ; this . VAR_4 = VAR_4 ; this . VAR_5 = VAR_5 ; } |
public void METHOD_1 ( int position ) { VAR_1 = TYPE_1 . METHOD_2 ( VAR_1 , position , VAR_2 , ( - 1 ) ) ; VAR_3 = TYPE_1 . METHOD_2 ( VAR_3 , position , VAR_2 , ( - 1 ) ) ; TYPE_2 . METHOD_3 ( position ) ; METHOD_4 ( ) ; } | public void METHOD_1 ( int position ) { VAR_1 = TYPE_1 . METHOD_2 ( VAR_1 , position , VAR_2 , ( - 1 ) ) ; VAR_3 = TYPE_1 . METHOD_2 ( VAR_3 , position , VAR_2 , ( - 1 ) ) ; METHOD_4 ( ) ; TYPE_2 . METHOD_3 ( position ) ; } |
public java.lang.Object execute ( final TYPE_1 context , final java.lang.Object source ) { final TYPE_2 VAR_1 = ( ( TYPE_2 ) ( TYPE_3 . METHOD_1 ( this . VAR_2 . METHOD_2 ( ) , VAR_3 ) ) ) ; return METHOD_3 ( context , source , METHOD_4 ( VAR_1 ) ) ; } | public java.lang.Object execute ( final TYPE_1 context , final java.lang.Object source ) { final TYPE_2 VAR_1 = ( ( TYPE_2 ) ( TYPE_3 . METHOD_1 ( VAR_2 . METHOD_2 ( ) , VAR_3 ) ) ) ; return METHOD_3 ( context , source , METHOD_4 ( VAR_1 ) ) ; } |
public java.lang.String METHOD_1 ( ) { METHOD_2 ( VAR_1 ) ; METHOD_3 ( ) ; METHOD_4 ( ) ; METHOD_5 ( ) ; java.lang.String VAR_2 = ( ( STRING_1 + ( VAR_3 . size ( ) ) ) + STRING_2 ) + ( VAR_4 . size ( ) ) ; return STRING_3 ; } | public void METHOD_5 ( ) { for ( int index = 0 ; index < ( VAR_3 . size ( ) ) ; index ++ ) { if ( VAR_4 . get ( index ) . trim ( ) . equals ( STRING_3 ) ) { VAR_4 . remove ( index ) ; index -- ; } } } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int i = 0 ; 1 < ( VAR_2 . length ) ; i ++ ) { if ( ( VAR_2 [ i ] ) != null ) { VAR_2 [ i ] = VAR_1 ; break ; } } } | public void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int i = 0 ; i < ( VAR_2 . length ) ; i ++ ) { if ( ( VAR_2 [ i ] ) != null ) { VAR_2 [ i ] = VAR_1 ; break ; } } } |
public int METHOD_1 ( TYPE_1 VAR_1 ) { int index = 0 ; double VAR_2 = VAR_3 ; for ( int k = 0 ; k < ( VAR_1 . METHOD_2 ( ) ) ; k ++ ) { if ( VAR_2 > ( VAR_1 . METHOD_3 ( k ) [ 0 ] ) ) { VAR_2 = VAR_1 . METHOD_3 ( k ) [ 0 ] ; index = k ; } } return index ; } | public int METHOD_1 ( TYPE_1 VAR_1 ) { int index = 0 ; double VAR_2 = 0 ; for ( int k = 0 ; k < ( VAR_1 . METHOD_2 ( ) ) ; k ++ ) { if ( ( VAR_1 . METHOD_3 ( k ) [ 0 ] ) > VAR_2 ) { VAR_2 = VAR_1 . METHOD_3 ( k ) [ 0 ] ; index = k ; } } return index ; } |
private void METHOD_1 ( int start , int end ) { if ( start < end ) { int p = METHOD_2 ( start , end ) ; int VAR_1 = METHOD_3 ( p , start , end ) ; METHOD_1 ( 0 , ( VAR_1 - 1 ) ) ; METHOD_1 ( ( VAR_1 + 1 ) , end ) ; } } | private void METHOD_1 ( int start , int end ) { if ( start < end ) { int p = METHOD_2 ( start , end ) ; int VAR_1 = METHOD_3 ( p , start , end ) ; METHOD_1 ( start , ( VAR_1 - 1 ) ) ; METHOD_1 ( ( VAR_1 + 1 ) , end ) ; } } |
private void METHOD_1 ( ) { if ( ( ( VAR_1 . METHOD_2 ( ) ) / INT_1 ) < INT_2 ) { VAR_2 . METHOD_3 ( VAR_1 . METHOD_4 ( ) , VAR_1 . METHOD_5 ( ) , ( ( VAR_1 . METHOD_2 ( ) ) / INT_1 ) , VAR_3 , VAR_4 , VAR_5 , VAR_6 ) ; VAR_1 . METHOD_5 ( ) . METHOD_6 ( ) ; } if ( ( VAR_7 ) == 0 ) VAR_8 . setState ( VAR_9 ) ; else VAR_8 . setState ( VAR_10 ) ; } | private void METHOD_1 ( ) { if ( ( ( VAR_1 . METHOD_2 ( ) ) / INT_1 ) > INT_2 ) { VAR_2 . METHOD_3 ( VAR_1 . METHOD_4 ( ) , VAR_1 . METHOD_5 ( ) , ( ( VAR_1 . METHOD_2 ( ) ) / INT_1 ) , VAR_3 , VAR_4 , VAR_5 , VAR_6 ) ; VAR_1 . METHOD_5 ( ) . METHOD_6 ( ) ; } if ( ( VAR_7 ) == 0 ) VAR_8 . setState ( VAR_9 ) ; else VAR_8 . setState ( VAR_10 ) ; } |
public static void METHOD_1 ( java.lang.String [ ] VAR_1 ) throws java.lang.Exception { TYPE_1 TYPE_2 = TYPE_3 . METHOD_2 ( ) ; TYPE_4 VAR_2 = new TYPE_4 ( ) ; TYPE_5 TYPE_6 = new TYPE_5 ( new TYPE_7 ( TYPE_2 , VAR_2 ) ) ; while ( TYPE_6 . METHOD_3 ( ) ) { try { java.lang.System.out.println ( TYPE_6 . METHOD_4 ( ) ) ; } catch ( TYPE_8 VAR_3 ) { java.lang.System.out.println ( VAR_3 . METHOD_5 ( ) ) ; break ; } } } | public static void METHOD_1 ( java.lang.String [ ] VAR_1 ) throws java.lang.Exception { TYPE_1 TYPE_2 = TYPE_3 . METHOD_2 ( ) ; TYPE_4 VAR_2 = new TYPE_4 ( ) ; TYPE_5 TYPE_6 = new TYPE_5 ( new TYPE_7 ( TYPE_2 , VAR_2 ) ) ; do { try { java.lang.System.out.println ( TYPE_6 . METHOD_4 ( ) ) ; } catch ( TYPE_8 VAR_3 ) { java.lang.System.out.println ( VAR_3 . METHOD_5 ( ) ) ; break ; } } while ( TYPE_6 . METHOD_3 ( ) ) ; } |
public void METHOD_1 ( ) throws java.lang.Exception { final long VAR_1 = INT_1 ; METHOD_2 ( java.util.Arrays.asList ( METHOD_3 ( VAR_2 class ) ) ) . METHOD_4 ( VAR_3 ) . METHOD_5 ( TYPE_1 . METHOD_6 ( VAR_4 class ) ) ; VAR_5 . METHOD_7 ( VAR_1 ) ; METHOD_8 ( VAR_3 ) . METHOD_5 ( TYPE_1 . METHOD_6 ( VAR_4 class ) ) ; METHOD_8 ( VAR_3 ) . METHOD_9 ( TYPE_1 . METHOD_6 ( VAR_2 class ) ) ; } | public void METHOD_1 ( ) throws java.lang.Exception { final long VAR_1 = INT_1 ; METHOD_2 ( java.util.Arrays.asList ( METHOD_3 ( VAR_2 class ) ) ) . METHOD_4 ( VAR_3 ) . METHOD_5 ( METHOD_6 ( VAR_4 class ) ) ; VAR_5 . METHOD_7 ( VAR_1 ) ; METHOD_8 ( VAR_3 ) . METHOD_5 ( METHOD_6 ( VAR_4 class ) ) ; METHOD_8 ( VAR_3 ) . METHOD_9 ( METHOD_6 ( VAR_2 class ) ) ; } |
public TYPE_1 METHOD_1 ( TYPE_2 n ) { TYPE_3 VAR_1 = TYPE_3 . METHOD_2 ( ) ; TYPE_3 VAR_2 = TYPE_3 . METHOD_2 ( ) ; TYPE_3 VAR_3 = TYPE_3 . METHOD_2 ( ) ; return new TYPE_4 ( METHOD_3 ( TYPE_5 . METHOD_4 ( VAR_1 ) , TYPE_5 . METHOD_5 ( VAR_2 ) , VAR_4 . METHOD_6 ( this ) . METHOD_7 ( ) , TYPE_5 . METHOD_5 ( VAR_1 ) , VAR_5 . METHOD_6 ( this ) . METHOD_8 ( VAR_3 , VAR_2 ) , TYPE_5 . METHOD_5 ( VAR_3 ) ) ) ; } | public TYPE_1 METHOD_1 ( TYPE_2 n ) { TYPE_3 VAR_1 = TYPE_3 . METHOD_2 ( ) ; TYPE_3 VAR_2 = TYPE_3 . METHOD_2 ( ) ; TYPE_3 VAR_3 = TYPE_3 . METHOD_2 ( ) ; return new TYPE_4 ( METHOD_3 ( TYPE_5 . METHOD_4 ( VAR_1 ) , TYPE_5 . METHOD_5 ( VAR_2 ) , VAR_4 . METHOD_6 ( this ) . METHOD_7 ( ) , TYPE_5 . METHOD_5 ( VAR_1 ) , VAR_5 . METHOD_6 ( this ) . METHOD_8 ( VAR_2 , VAR_3 ) , TYPE_5 . METHOD_5 ( VAR_3 ) ) ) ; } |
public void METHOD_1 ( ) { buffer = TYPE_1 . METHOD_2 ( ( ( VAR_1 ) + 1 ) ) ; buffer . METHOD_3 ( ) ; buffer . put ( ( ( byte ) ( - INT_1 ) ) ) ; buffer . put ( VAR_2 ) ; buffer . METHOD_4 ( ) ; } | public void METHOD_1 ( ) { buffer = TYPE_1 . METHOD_2 ( ( ( VAR_1 ) + 1 ) ) ; buffer . METHOD_3 ( ) ; buffer . put ( ( ( byte ) ( 1 ) ) ) ; buffer . put ( VAR_2 ) ; buffer . METHOD_4 ( ) ; } |
public boolean equals ( java.lang.Object VAR_1 ) { if ( ( this ) == VAR_1 ) return true ; if ( ( VAR_1 == null ) || ( ( getClass ( ) ) != ( VAR_1 . getClass ( ) ) ) ) return false ; TYPE_1 VAR_2 = ( ( TYPE_1 ) ( VAR_1 ) ) ; return new TYPE_2 ( ) . METHOD_1 ( super . equals ( VAR_1 ) ) . append ( VAR_3 , VAR_4 ) . METHOD_2 ( ) ; } | public boolean equals ( java.lang.Object VAR_1 ) { if ( ( this ) == VAR_1 ) return true ; if ( ( VAR_1 == null ) || ( ( getClass ( ) ) != ( VAR_1 . getClass ( ) ) ) ) return false ; TYPE_1 VAR_2 = ( ( TYPE_1 ) ( VAR_1 ) ) ; return new TYPE_2 ( ) . METHOD_1 ( super . equals ( VAR_1 ) ) . append ( VAR_3 , VAR_4 ) . append ( text , VAR_2 . text ) . METHOD_2 ( ) ; } |
public void METHOD_1 ( ) { VAR_1 = false ; TYPE_1 < short [ ] > VAR_2 = new TYPE_1 < short [ ] > ( ) ; VAR_3 . METHOD_2 ( VAR_2 ) ; METHOD_3 ( VAR_2 ) ; VAR_3 . METHOD_2 ( null ) ; METHOD_4 ( VAR_2 ) ; VAR_4 . METHOD_5 ( ) ; if ( VAR_5 != null ) VAR_5 . METHOD_6 ( ) ; VAR_6 = null ; } | public void METHOD_1 ( ) { VAR_1 = false ; TYPE_1 < short [ ] > VAR_2 = new TYPE_1 < short [ ] > ( ) ; VAR_3 . METHOD_2 ( VAR_2 ) ; METHOD_3 ( VAR_2 ) ; VAR_3 . METHOD_2 ( null ) ; METHOD_4 ( VAR_2 ) ; VAR_4 . METHOD_5 ( ) ; VAR_6 = null ; if ( ( this . VAR_5 ) != null ) this . VAR_5 . METHOD_6 ( ) ; } |
public java.lang.String METHOD_1 ( ) { java.lang.String result = STRING_1 ; for ( TYPE_1 VAR_1 : VAR_2 ) { result += STRING_2 + ( VAR_1 . METHOD_2 ( ) ) ; } int VAR_3 = result . length ( ) ; if ( VAR_3 > INT_1 ) return result . substring ( INT_1 , VAR_3 ) ; return result ; } | public java.lang.String METHOD_1 ( ) { java.lang.String result = STRING_1 ; for ( TYPE_1 VAR_1 : VAR_2 ) { if ( ! ( VAR_1 . METHOD_2 ( ) . isEmpty ( ) ) ) result += STRING_2 + ( VAR_1 . METHOD_2 ( ) ) ; } int VAR_3 = result . length ( ) ; if ( VAR_3 > INT_1 ) return result . substring ( INT_1 , VAR_3 ) ; return result ; } |
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