Split (3)

train · 126k rows

input stringlengths 35 67.8k	output stringlengths 39 1.53k
METHOD_0 ( ) { when ( IDENT_0 . METHOD_1 ( "name" , io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ) . thenReturn ( IDENT_4 ) ; io . IDENT_1 . core . IDENT_2 . IDENT_3 result = org . apache . camel . component . IDENT_1 . IDENT_5 . METHOD_2 ( IDENT_0 , "name" ) ; "<AssertPlaceHolder>" ; IDENT_6 . verify ( IDENT_0 , times ( 1 ) ) . METHOD_1 ( "name" , io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ; IDENT_6 . METHOD_3 ( ) ; } is ( io . IDENT_7 . group . IDENT_8 ) { return ( this . IDENT_9 ) != null ? this . IDENT_9 . equals ( IDENT_9 ) : false ; }	org . junit . Assert . assertThat ( result , org . hamcrest . Matchers . is ( IDENT_4 ) )
METHOD_0 ( ) { final org . hipparchus . analysis . IDENT_0 IDENT_1 = new org . hipparchus . analysis . function . METHOD_1 ( ) ; final org . hipparchus . analysis . integration . IDENT_2 . IDENT_3 IDENT_4 = org . hipparchus . analysis . integration . IDENT_2 . IDENT_5 . factory . METHOD_2 ( 7 , 0 , ( ( Math . IDENT_6 ) / 2 ) ) ; final double s = IDENT_4 . METHOD_3 ( IDENT_1 ) ; "<AssertPlaceHolder>" ; } METHOD_4 ( float ) { if ( java . lang . IDENT_7 . METHOD_5 ( x ) ) { return IDENT_7 . IDENT_8 ; } return org . hipparchus . util . IDENT_9 . METHOD_6 ( ( x - ( java . lang . IDENT_7 . METHOD_7 ( ( ( java . lang . IDENT_7 . METHOD_8 ( x ) ) OP_0 1 ) ) ) ) ) ; }	org . junit . Assert . assertEquals ( 1 , s , java . lang . Math . METHOD_4 ( 1.0 ) )
METHOD_0 ( ) { int IDENT_0 = 100 ; double [ ] IDENT_1 = new double [ IDENT_0 ] ; double [ ] IDENT_2 = new double [ IDENT_0 ] ; double IDENT_3 = FLOAT_0 ; double IDENT_4 = FLOAT_1 ; METHOD_1 ( IDENT_1 , IDENT_2 , IDENT_3 , IDENT_4 ) ; org . hipparchus . analysis . IDENT_5 . IDENT_6 IDENT_7 = new org . hipparchus . analysis . IDENT_5 . METHOD_2 ( FLOAT_2 , 4 , FLOAT_3 ) ; double [ ] res = IDENT_7 . METHOD_3 ( IDENT_1 , IDENT_2 ) ; double IDENT_8 = 0 ; double IDENT_9 = 0 ; for ( int i = 0 ; i < IDENT_0 ; ++ i ) { double expected = org . hipparchus . util . IDENT_10 . METHOD_4 ( IDENT_1 [ i ] ) ; double IDENT_11 = IDENT_2 [ i ] ; double IDENT_12 = res [ i ] ; IDENT_8 += org . hipparchus . util . IDENT_10 . METHOD_5 ( ( IDENT_11 - expected ) , 2 ) ; IDENT_9 += org . hipparchus . util . IDENT_10 . METHOD_5 ( ( IDENT_12 - expected ) , 2 ) ; } "<AssertPlaceHolder>" ; } METHOD_5 ( double , double ) { if ( y == 0 ) { return 1.0 ; } else { final long IDENT_13 = java . lang . Double . METHOD_6 ( y ) ; final int IDENT_14 = ( ( int ) ( ( IDENT_13 & ( org . hipparchus . util . IDENT_10 . IDENT_15 ) ) > > INT_0 ) ) ; final long IDENT_16 = IDENT_13 & ( org . hipparchus . util . IDENT_10 . IDENT_17 ) ; final long IDENT_18 = java . lang . Double . METHOD_6 ( x ) ; final int IDENT_19 = ( ( int ) ( ( IDENT_18 & ( org . hipparchus . util . IDENT_10 . IDENT_15 ) ) > > INT_0 ) ) ; final long IDENT_20 = IDENT_18 & ( org . hipparchus . util . IDENT_10 . IDENT_17 ) ; if ( IDENT_14 > INT_1 ) { y = - METHOD_7 ( IDENT_21 IDENT_22 IDENT_23 ) and METHOD_8 ( x ) < 1.0 y = - METHOD_7 ( IDENT_21 IDENT_22 IDENT_23 ) and METHOD_8 ( x ) > 1.0 if ( ( ( IDENT_14 == INT_2 ) && ( IDENT_16 != 0 ) ) \|\| ( ( IDENT_19 == INT_2 ) && ( IDENT_20 != 0 ) ) ) { return Double . IDENT_24 ; } y = - METHOD_7 ( IDENT_21 IDENT_22 IDENT_23 ) and METHOD_8 ( x ) < 1.0 y = - METHOD_7 ( IDENT_21 IDENT_22 IDENT_23 ) and METHOD_8 ( x ) > 1.0 else if ( ( IDENT_19 == INT_3 ) && ( IDENT_20 == 0 ) ) { if ( IDENT_14 == INT_2 ) { return Double . IDENT_24 ; } else { return 1.0 ; } } else { if ( ( y > 0 ) OP_0 ( IDENT_19 < INT_3 ) ) { return Double . IDENT_25 ; } else { return + 0.0 ; } } } else { if ( IDENT_14 >= INT_3 ) { final long IDENT_26 = ( org . hipparchus . util . IDENT_10 . IDENT_27 ) \| IDENT_16 ; if ( IDENT_14 < INT_4 ) { final long IDENT_28 = ( - 1L ) << ( INT_4 - IDENT_14 ) ; if ( ( IDENT_26 & IDENT_28 ) == IDENT_26 ) { final long l = IDENT_26 > > ( INT_4 - IDENT_14 ) ; return org . hipparchus . util . IDENT_10 . METHOD_5 ( x , ( y < 0 ? - l : l ) ) ; } } else { final long l = IDENT_26 << ( IDENT_14 - INT_4 ) ; return org . hipparchus . util . IDENT_10 . METHOD_5 ( x , ( y < 0 ? - l : l ) ) ; } } else if ( IDENT_19 == INT_2 ) { if ( IDENT_20 == 0 ) { return y < 0 ? + 0.0 : Double . IDENT_25 ; } else { return Double . IDENT_24 ; } } else if ( x < 0 ) { return Double . IDENT_24 ; } else { final double IDENT_29 = y * ( org . hipparchus . util . IDENT_10 . IDENT_30 ) ; final double IDENT_31 = ( y + IDENT_29 ) - IDENT_29 ; final double IDENT_32 = y - IDENT_31 ; final double [ ] IDENT_33 = new double [ 2 ] ; final double IDENT_34 = org . hipparchus . util . IDENT_10 . log ( x , IDENT_33 ) ; if ( java . lang . Double . METHOD_9 ( IDENT_34 ) ) { return IDENT_34 ; } double IDENT_35 = IDENT_33 [ 0 ] ; double IDENT_36 = IDENT_33 [ 1 ] ; final double IDENT_37 = IDENT_35 * ( org . hipparchus . util . IDENT_10 . IDENT_30 ) ; final double IDENT_38 = ( IDENT_35 + IDENT_37 ) - IDENT_37 ; IDENT_36 += IDENT_35 - IDENT_38 ; IDENT_35 = IDENT_38 ; final double IDENT_39 = IDENT_35 * IDENT_31 ; final double IDENT_40 = ( ( IDENT_35 * IDENT_32 ) + ( IDENT_36 * IDENT_31 ) ) + ( IDENT_36 * IDENT_32 ) ; IDENT_35 = IDENT_39 + IDENT_40 ; IDENT_36 = - ( ( IDENT_35 - IDENT_39 ) - IDENT_40 ) ; double IDENT_41 = 1.0 / FLOAT_4 ; IDENT_41 = ( IDENT_41 * IDENT_36 ) + ( 1.0 / FLOAT_5 ) ; IDENT_41 = ( IDENT_41 * IDENT_36 ) + ( 1.0 / FLOAT_6 ) ; IDENT_41 = ( IDENT_41 * IDENT_36 ) + FLOAT_7 ; IDENT_41 = ( IDENT_41 * IDENT_36 ) + 1.0 ; IDENT_41 OP_1 IDENT_36 ; return org . hipparchus . util . IDENT_10 . exp ( IDENT_35 , IDENT_41 , null ) ; } } } }	org . junit . Assert . assertTrue ( ( IDENT_9 < IDENT_8 ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . util . IDENT_2 > IDENT_3 = METHOD_1 ( ( - 2 ) , 1 ) ; org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . util . IDENT_2 > IDENT_4 = METHOD_1 ( 2 , ( - 1 ) , 0 ) ; METHOD_2 ( IDENT_3 . add ( IDENT_4 ) ) ; IDENT_4 = IDENT_3 . add ( IDENT_3 ) ; METHOD_3 ( Double . IDENT_5 , IDENT_4 , ( - 4 ) , 2 ) ; IDENT_3 = METHOD_1 ( 1 , ( - 4 ) , 2 ) ; IDENT_4 = METHOD_1 ( ( - 1 ) , 3 , ( - 2 ) ) ; IDENT_3 = IDENT_3 . add ( IDENT_4 ) ; "<AssertPlaceHolder>" ; METHOD_3 ( Double . IDENT_5 , IDENT_3 , 0 , ( - 1 ) ) ; } METHOD_4 ( ) { return ( IDENT_6 . length ) - 1 ; }	org . junit . Assert . assertEquals ( 1 , IDENT_3 . METHOD_4 ( ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . util . IDENT_2 > IDENT_3 = METHOD_1 ( ( - 2 ) , 1 ) ; METHOD_2 ( IDENT_3 . METHOD_3 ( IDENT_3 ) ) ; org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . util . IDENT_2 > IDENT_4 = METHOD_1 ( ( - 2 ) , 6 ) ; IDENT_4 = IDENT_4 . METHOD_3 ( IDENT_3 ) ; METHOD_4 ( Double . IDENT_5 , IDENT_4 , 0 , 5 ) ; IDENT_3 = METHOD_1 ( 1 , ( - 4 ) , 2 ) ; IDENT_4 = METHOD_1 ( ( - 1 ) , 3 , 2 ) ; IDENT_3 = IDENT_3 . METHOD_3 ( IDENT_4 ) ; "<AssertPlaceHolder>" ; METHOD_4 ( Double . IDENT_5 , IDENT_3 , 2 , ( - 7 ) ) ; } METHOD_5 ( ) { return ( IDENT_6 . length ) - 1 ; }	org . junit . Assert . assertEquals ( 1 , IDENT_3 . METHOD_5 ( ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 . IDENT_1 IDENT_2 = new org . hipparchus . analysis . IDENT_0 . METHOD_1 ( new double [ ] { - 2 , 1 } ) ; org . hipparchus . analysis . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . analysis . IDENT_0 . METHOD_1 ( new double [ ] { 2 , - 1 , 0 } ) ; METHOD_2 ( IDENT_2 . add ( IDENT_3 ) ) ; IDENT_3 = IDENT_2 . add ( IDENT_2 ) ; METHOD_3 ( IDENT_3 , STRING_0 ) ; IDENT_2 = new org . hipparchus . analysis . IDENT_0 . METHOD_1 ( new double [ ] { 1 , - 4 , 2 } ) ; IDENT_3 = new org . hipparchus . analysis . IDENT_0 . METHOD_1 ( new double [ ] { - 1 , 3 , - 2 } ) ; IDENT_2 = IDENT_2 . add ( IDENT_3 ) ; "<AssertPlaceHolder>" ; METHOD_3 ( IDENT_2 , STRING_1 ) ; } METHOD_4 ( ) { return ( IDENT_4 . length ) - 1 ; }	org . junit . Assert . assertEquals ( 1 , IDENT_2 . METHOD_4 ( ) )
METHOD_0 ( ) { for ( int v = 0 ; v < 10 ; ++ v ) { for ( int IDENT_0 = 0 ; IDENT_0 < 10 ; ++ IDENT_0 ) { for ( int i = 0 ; i < 10 ; ++ i ) { org . hipparchus . analysis . IDENT_1 . IDENT_2 IDENT_3 = org . hipparchus . analysis . IDENT_1 . IDENT_4 . METHOD_1 ( i , v , IDENT_0 ) ; double IDENT_5 = org . hipparchus . util . IDENT_6 . METHOD_2 ( ( v + i ) , i ) ; "<AssertPlaceHolder>" ; } } } } equals ( float , float , float ) { return ( org . hipparchus . util . IDENT_7 . equals ( x , y , 1 ) ) \|\| ( ( org . hipparchus . util . IDENT_8 . METHOD_3 ( ( y - x ) ) ) <= IDENT_9 ) ; }	org . junit . Assert . assertTrue ( org . hipparchus . util . IDENT_7 . equals ( IDENT_5 , IDENT_3 . value ( 1.0 ) , 1 ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 f = new org . hipparchus . analysis . function . METHOD_1 ( ) ; org . hipparchus . analysis . IDENT_1 . IDENT_2 IDENT_3 = METHOD_2 ( ) ; double IDENT_4 = - FLOAT_0 ; double IDENT_5 = FLOAT_1 ; for ( int i = 0 ; i < 10 ; i ++ ) { double solution = METHOD_3 ( IDENT_3 , 100 , f , IDENT_4 , IDENT_5 , IDENT_6 . IDENT_7 ) ; if ( ! ( java . lang . Double . METHOD_4 ( solution ) ) ) { "<AssertPlaceHolder>" ; } IDENT_4 OP_0 FLOAT_2 ; IDENT_5 += FLOAT_3 ; } } METHOD_2 ( ) { return new org . hipparchus . analysis . IDENT_1 . METHOD_5 ( ) ; }	org . junit . Assert . assertTrue ( ( solution <= 0.0 ) )
METHOD_0 ( ) { when ( IDENT_0 . METHOD_1 ( "name" , io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ) . thenReturn ( null ) ; when ( IDENT_0 . METHOD_2 ( io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ) . thenReturn ( java . util . Collections . METHOD_3 ( IDENT_4 ) ) ; io . IDENT_1 . core . IDENT_2 . IDENT_3 result = org . apache . camel . component . IDENT_1 . IDENT_5 . METHOD_4 ( IDENT_0 , "name" ) ; "<AssertPlaceHolder>" ; IDENT_6 . verify ( IDENT_0 , times ( 1 ) ) . METHOD_1 ( "name" , io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ; IDENT_6 . verify ( IDENT_0 , times ( 1 ) ) . METHOD_2 ( io . IDENT_1 . core . IDENT_2 . IDENT_3 . class ) ; IDENT_6 . METHOD_5 ( ) ; } is ( io . IDENT_7 . group . IDENT_8 ) { return ( this . IDENT_9 ) != null ? this . IDENT_9 . equals ( IDENT_9 ) : false ; }	org . junit . Assert . assertThat ( result , org . hamcrest . Matchers . is ( IDENT_4 ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 f = new org . hipparchus . analysis . function . METHOD_1 ( ) ; org . hipparchus . analysis . IDENT_1 . IDENT_2 IDENT_3 = METHOD_2 ( ) ; double IDENT_4 = - FLOAT_0 ; double IDENT_5 = FLOAT_1 ; for ( int i = 0 ; i < 10 ; i ++ ) { double solution = METHOD_3 ( IDENT_3 , 100 , f , IDENT_4 , IDENT_5 , IDENT_6 . IDENT_7 ) ; if ( ! ( java . lang . Double . METHOD_4 ( solution ) ) ) { "<AssertPlaceHolder>" ; } IDENT_4 OP_0 FLOAT_2 ; IDENT_5 += FLOAT_3 ; } } METHOD_2 ( ) { return new org . hipparchus . analysis . IDENT_1 . METHOD_5 ( ) ; }	org . junit . Assert . assertTrue ( ( solution >= 0.0 ) )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 f = ( x ) -> x < FLOAT_0 ? - 1 : 1 ; org . hipparchus . analysis . IDENT_1 . IDENT_2 IDENT_3 = new org . hipparchus . analysis . IDENT_1 . METHOD_1 ( 0 , FLOAT_1 , 0 , 5 ) ; double result = IDENT_3 . METHOD_2 ( 100 , f , 0.0 , FLOAT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . analysis . IDENT_0 , double , double , double ) { org . hipparchus . util . IDENT_4 . METHOD_3 ( function , IDENT_5 . IDENT_6 ) ; final org . hipparchus . analysis . IDENT_1 . IDENT_2 IDENT_3 = new org . hipparchus . analysis . IDENT_1 . METHOD_4 ( IDENT_7 ) ; return IDENT_3 . METHOD_2 ( Integer . MAX_VALUE , function , IDENT_8 , IDENT_9 ) ; }	org . junit . Assert . assertEquals ( FLOAT_0 , result , 0.0 )
METHOD_0 ( ) { org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . IDENT_2 . IDENT_3 > IDENT_4 = new org . hipparchus . analysis . IDENT_0 . IDENT_1 < org . hipparchus . IDENT_2 . IDENT_3 > ( IDENT_5 , IDENT_6 , IDENT_7 , 2 ) ; "<AssertPlaceHolder>" ; } METHOD_1 ( ) { return IDENT_8 ; }	org . junit . Assert . assertEquals ( 2 , IDENT_4 . METHOD_1 ( ) )
METHOD_0 ( ) { double min ; double max ; double expected ; double result ; double IDENT_0 ; double [ ] IDENT_1 = new double [ ] { - 1.0 , FLOAT_0 } ; org . hipparchus . analysis . IDENT_2 . IDENT_3 f = new org . hipparchus . analysis . IDENT_2 . METHOD_1 ( IDENT_1 ) ; org . hipparchus . analysis . IDENT_4 . IDENT_5 IDENT_6 = new org . hipparchus . analysis . IDENT_4 . METHOD_2 ( ) ; min = 0.0 ; max = 1.0 ; expected = FLOAT_1 ; IDENT_0 = org . hipparchus . util . IDENT_7 . max ( IDENT_6 . METHOD_3 ( ) , org . hipparchus . util . IDENT_7 . METHOD_4 ( ( expected * ( IDENT_6 . METHOD_5 ( ) ) ) ) ) ; result = IDENT_6 . METHOD_6 ( 100 , f , min , max ) ; "<AssertPlaceHolder>" ; } METHOD_6 ( org . hipparchus . analysis . IDENT_8 , double , double , double ) { org . hipparchus . util . IDENT_9 . METHOD_7 ( function , IDENT_10 . IDENT_11 ) ; final org . hipparchus . analysis . IDENT_4 . IDENT_12 IDENT_6 = new org . hipparchus . analysis . IDENT_4 . METHOD_8 ( IDENT_13 ) ; return IDENT_6 . METHOD_6 ( Integer . MAX_VALUE , function , IDENT_14 , IDENT_15 ) ; }	org . junit . Assert . assertEquals ( expected , result , IDENT_0 )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( 1 , 2 ) ; java . lang . String expected = STRING_0 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_2 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( ( - FLOAT_0 ) , FLOAT_1 ) ; java . lang . String expected = ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , ( - FLOAT_1 ) ) ; java . lang . String expected = ( ( ( "1" + ( METHOD_2 ( ) ) ) + STRING_0 ) + ( METHOD_2 ( ) ) ) + STRING_1 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( ( - FLOAT_0 ) , ( - FLOAT_1 ) ) ; java . lang . String expected = ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( 0.0 , ( - FLOAT_0 ) ) ; java . lang . String expected = ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , 0 ) ; java . lang . String expected = ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 c = new org . hipparchus . IDENT_0 . METHOD_1 ( 1 , 1 ) ; java . lang . String expected = STRING_0 ; java . lang . String actual = IDENT_2 . format ( c ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_2 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . util . Locale IDENT_0 = java . util . Locale . METHOD_1 ( ) ; java . util . Locale . METHOD_2 ( METHOD_3 ( ) ) ; org . hipparchus . IDENT_1 . IDENT_2 c = new org . hipparchus . IDENT_1 . METHOD_4 ( FLOAT_0 , ( - FLOAT_1 ) ) ; java . lang . String expected = ( ( ( STRING_0 + ( METHOD_5 ( ) ) ) + STRING_1 ) + ( METHOD_5 ( ) ) ) + STRING_2 ; java . lang . String actual = new org . hipparchus . IDENT_1 . METHOD_6 ( ) . format ( c ) ; "<AssertPlaceHolder>" ; java . util . Locale . METHOD_2 ( IDENT_0 ) ; } format ( double ) { if ( d != d ) { return STRING_3 ; } else { return ( ( d >= 0 ? STRING_4 : "" ) + ( java . lang . Double . toString ( d ) ) ) + STRING_5 ; } }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = STRING_0 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_1 ( 1 , 1 ) ; org . hipparchus . IDENT_0 . METHOD_1 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_2 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_3 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_4 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_5 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { com . IDENT_0 . IDENT_1 . IDENT_2 . IDENT_3 . log ( STRING_0 ) ; com . IDENT_0 . IDENT_1 . IDENT_2 . IDENT_4 instance = IDENT_5 . METHOD_1 ( ) ; java . lang . Boolean expResult = false ; java . lang . Boolean result = instance . METHOD_2 ( ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return this . IDENT_6 ; }	org . junit . Assert . assertEquals ( expResult , result )
METHOD_0 ( ) { byte [ ] in = STRING_0 . getBytes ( ) ; org . apache . IDENT_0 . core . buffer . IDENT_1 IDENT_2 = org . apache . IDENT_0 . core . buffer . IDENT_1 . METHOD_1 ( in ) ; byte [ ] out = org . apache . camel . component . IDENT_3 . IDENT_4 . toByteArray ( IDENT_2 ) ; for ( int i = 0 ; i < ( out . length ) ; i ++ ) { "<AssertPlaceHolder>" ; } } toByteArray ( org . apache . IDENT_0 . core . buffer . IDENT_1 ) { byte [ ] IDENT_5 = new byte [ buffer . METHOD_2 ( ) ] ; buffer . get ( IDENT_5 ) ; return IDENT_5 ; }	org . junit . Assert . assertEquals ( in [ i ] , out [ i ] )
METHOD_0 ( ) { java . lang . String source = ( ( ( "1" + ( METHOD_1 ( ) ) ) + STRING_0 ) + ( METHOD_1 ( ) ) ) + STRING_1 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_2 ( FLOAT_0 , FLOAT_1 ) ; org . hipparchus . IDENT_0 . METHOD_2 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( ( ( "1" + ( METHOD_1 ( ) ) ) + STRING_0 ) + ( METHOD_1 ( ) ) ) + STRING_1 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_2 ( FLOAT_0 , ( - FLOAT_1 ) ) ; org . hipparchus . IDENT_0 . METHOD_2 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( ( ( STRING_0 + ( METHOD_1 ( ) ) ) + STRING_1 ) + ( METHOD_1 ( ) ) ) + STRING_2 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_2 ( ( - FLOAT_0 ) , ( - FLOAT_1 ) ) ; org . hipparchus . IDENT_0 . METHOD_2 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( STRING_0 + ( METHOD_1 ( ) ) ) + STRING_1 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_2 ( ( - FLOAT_0 ) , 0 ) ; org . hipparchus . IDENT_0 . METHOD_2 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = STRING_0 ; org . hipparchus . IDENT_0 . IDENT_1 expected = new org . hipparchus . IDENT_0 . METHOD_1 ( Double . IDENT_2 , Double . IDENT_2 ) ; org . hipparchus . IDENT_0 . METHOD_1 actual = IDENT_3 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_4 IDENT_5 = new java . text . METHOD_2 ( 0 ) ; org . hipparchus . geometry . IDENT_6 . IDENT_7 . IDENT_8 result = parse ( source , IDENT_5 ) ; if ( ( IDENT_5 . METHOD_3 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_4 ( org . hipparchus . exception . IDENT_9 . IDENT_10 , source , IDENT_5 . METHOD_5 ( ) , org . hipparchus . geometry . IDENT_6 . IDENT_7 . IDENT_8 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String in = STRING_0 ; org . apache . IDENT_0 . core . buffer . IDENT_1 IDENT_2 = org . apache . IDENT_0 . core . buffer . IDENT_1 . METHOD_1 ( in . getBytes ( STRING_1 ) ) ; org . apache . camel . IDENT_3 IDENT_4 = new org . apache . camel . support . METHOD_2 ( new org . apache . camel . impl . METHOD_3 ( ) ) ; IDENT_4 . setProperty ( IDENT_3 . IDENT_5 , STRING_1 ) ; java . lang . String out = org . apache . camel . component . IDENT_6 . IDENT_7 . toString ( IDENT_2 , IDENT_4 ) ; "<AssertPlaceHolder>" ; } toString ( org . apache . IDENT_0 . core . buffer . IDENT_1 , org . apache . camel . IDENT_3 ) { byte [ ] bytes = org . apache . camel . component . IDENT_6 . IDENT_7 . toByteArray ( buffer ) ; return IDENT_4 . METHOD_4 ( ) . METHOD_5 ( ) . METHOD_6 ( org . apache . camel . component . IDENT_6 . String . class , IDENT_4 , bytes ) ; }	org . junit . Assert . assertEquals ( STRING_0 , out )
METHOD_0 ( ) { java . text . IDENT_0 IDENT_1 = java . text . IDENT_0 . getInstance ( ) ; org . hipparchus . IDENT_2 . IDENT_3 IDENT_4 = new org . hipparchus . IDENT_2 . METHOD_1 ( IDENT_1 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return IDENT_5 ; }	org . junit . Assert . assertSame ( IDENT_1 , IDENT_4 . METHOD_2 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = 2.0 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } add ( org . hipparchus . IDENT_0 . IDENT_4 ) { return org . hipparchus . IDENT_0 . IDENT_4 . add ( this , q ) ; }	org . junit . Assert . assertEquals ( x . add ( IDENT_3 ) , x . add ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = Double . IDENT_3 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_4 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } add ( org . hipparchus . IDENT_0 . IDENT_5 ) { return org . hipparchus . IDENT_0 . IDENT_5 . add ( this , q ) ; }	org . junit . Assert . assertEquals ( x . add ( IDENT_4 ) , x . add ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 IDENT_2 = IDENT_1 . IDENT_3 . METHOD_1 ( ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return ( java . lang . Double . METHOD_2 ( IDENT_4 ) ) \|\| ( java . lang . Double . METHOD_2 ( IDENT_5 ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . METHOD_2 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_2 = x . METHOD_2 ( METHOD_1 . IDENT_3 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . METHOD_1 ) { org . hipparchus . util . IDENT_4 . METHOD_3 ( IDENT_5 ) ; if ( ( IDENT_6 ) \|\| ( IDENT_5 . IDENT_6 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_7 ; } final double c = IDENT_5 . METHOD_4 ( ) ; final double d = IDENT_5 . METHOD_5 ( ) ; if ( ( c == 0.0 ) && ( d == 0.0 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_7 ; } if ( ( IDENT_5 . METHOD_6 ( ) ) && ( ! ( METHOD_6 ( ) ) ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_3 ; } if ( ( org . hipparchus . util . IDENT_8 . METHOD_7 ( c ) ) < ( org . hipparchus . util . IDENT_8 . METHOD_7 ( d ) ) ) { double q = c / d ; double IDENT_9 = ( c * q ) + d ; return METHOD_8 ( ( ( ( ( IDENT_10 ) * q ) + ( IDENT_11 ) ) / IDENT_9 ) , ( ( ( ( IDENT_11 ) * q ) - ( IDENT_10 ) ) / IDENT_9 ) ) ; } else { double q = d / c ; double IDENT_9 = ( d * q ) + c ; return METHOD_8 ( ( ( ( ( IDENT_11 ) * q ) + ( IDENT_10 ) ) / IDENT_9 ) , ( ( ( IDENT_11 ) - ( ( IDENT_10 ) * q ) ) / IDENT_9 ) ) ; } }	org . junit . Assert . assertEquals ( IDENT_2 , METHOD_1 . IDENT_7 )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_2 = x . METHOD_2 ( METHOD_1 . IDENT_3 ) ; "<AssertPlaceHolder>" ; } METHOD_3 ( ) { return ( java . lang . Double . METHOD_3 ( IDENT_4 ) ) \|\| ( java . lang . Double . METHOD_3 ( IDENT_5 ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . METHOD_3 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = 2.0 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . METHOD_1 ) { org . hipparchus . util . IDENT_4 . METHOD_3 ( IDENT_5 ) ; if ( ( IDENT_6 ) \|\| ( IDENT_5 . IDENT_6 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_7 ; } final double c = IDENT_5 . METHOD_4 ( ) ; final double d = IDENT_5 . METHOD_5 ( ) ; if ( ( c == 0.0 ) && ( d == 0.0 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_7 ; } if ( ( IDENT_5 . METHOD_6 ( ) ) && ( ! ( METHOD_6 ( ) ) ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_8 ; } if ( ( org . hipparchus . util . IDENT_9 . METHOD_7 ( c ) ) < ( org . hipparchus . util . IDENT_9 . METHOD_7 ( d ) ) ) { double q = c / d ; double IDENT_10 = ( c * q ) + d ; return METHOD_8 ( ( ( ( ( IDENT_11 ) * q ) + ( IDENT_12 ) ) / IDENT_10 ) , ( ( ( ( IDENT_12 ) * q ) - ( IDENT_11 ) ) / IDENT_10 ) ) ; } else { double q = d / c ; double IDENT_10 = ( d * q ) + c ; return METHOD_8 ( ( ( ( ( IDENT_12 ) * q ) + ( IDENT_11 ) ) / IDENT_10 ) , ( ( ( IDENT_12 ) - ( ( IDENT_11 ) * q ) ) / IDENT_10 ) ) ; } }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_3 ) , x . METHOD_2 ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = Double . IDENT_3 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_4 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . METHOD_1 ) { org . hipparchus . util . IDENT_5 . METHOD_3 ( IDENT_6 ) ; if ( ( IDENT_7 ) \|\| ( IDENT_6 . IDENT_7 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_3 ; } final double c = IDENT_6 . METHOD_4 ( ) ; final double d = IDENT_6 . METHOD_5 ( ) ; if ( ( c == 0.0 ) && ( d == 0.0 ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_3 ; } if ( ( IDENT_6 . METHOD_6 ( ) ) && ( ! ( METHOD_6 ( ) ) ) ) { return org . hipparchus . IDENT_0 . METHOD_1 . IDENT_8 ; } if ( ( org . hipparchus . util . IDENT_9 . METHOD_7 ( c ) ) < ( org . hipparchus . util . IDENT_9 . METHOD_7 ( d ) ) ) { double q = c / d ; double IDENT_10 = ( c * q ) + d ; return METHOD_8 ( ( ( ( ( IDENT_11 ) * q ) + ( IDENT_12 ) ) / IDENT_10 ) , ( ( ( ( IDENT_12 ) * q ) - ( IDENT_11 ) ) / IDENT_10 ) ) ; } else { double q = d / c ; double IDENT_10 = ( d * q ) + c ; return METHOD_8 ( ( ( ( ( IDENT_12 ) * q ) + ( IDENT_11 ) ) / IDENT_10 ) , ( ( ( IDENT_12 ) - ( ( IDENT_11 ) * q ) ) / IDENT_10 ) ) ; } }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_4 ) , x . METHOD_2 ( IDENT_2 ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } if ( ( ( IDENT_4 ) == 0.0 ) && ( ( IDENT_5 ) == 0.0 ) ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_6 ; } if ( IDENT_7 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_8 ; } if ( ( org . hipparchus . util . IDENT_9 . METHOD_2 ( IDENT_4 ) ) < ( org . hipparchus . util . IDENT_9 . METHOD_2 ( IDENT_5 ) ) ) { double q = ( IDENT_4 ) / ( IDENT_5 ) ; double IDENT_10 = 1.0 / ( ( ( IDENT_4 ) * q ) + ( IDENT_5 ) ) ; return METHOD_3 ( ( IDENT_10 * q ) , ( - IDENT_10 ) ) ; } else { double q = ( IDENT_5 ) / ( IDENT_4 ) ; double IDENT_10 = 1.0 / ( ( ( IDENT_5 ) * q ) + ( IDENT_4 ) ) ; return METHOD_3 ( IDENT_10 , ( ( - IDENT_10 ) * q ) ) ; } }	org . junit . Assert . assertEquals ( IDENT_2 . IDENT_8 . METHOD_1 ( ) , IDENT_2 . IDENT_6 )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } if ( ( ( IDENT_4 ) == 0.0 ) && ( ( IDENT_5 ) == 0.0 ) ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_6 ; } if ( IDENT_7 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_8 ; } if ( ( org . hipparchus . util . IDENT_9 . METHOD_2 ( IDENT_4 ) ) < ( org . hipparchus . util . IDENT_9 . METHOD_2 ( IDENT_5 ) ) ) { double q = ( IDENT_4 ) / ( IDENT_5 ) ; double IDENT_10 = 1.0 / ( ( ( IDENT_4 ) * q ) + ( IDENT_5 ) ) ; return METHOD_3 ( ( IDENT_10 * q ) , ( - IDENT_10 ) ) ; } else { double q = ( IDENT_5 ) / ( IDENT_4 ) ; double IDENT_10 = 1.0 / ( ( ( IDENT_5 ) * q ) + ( IDENT_4 ) ) ; return METHOD_3 ( IDENT_10 , ( ( - IDENT_10 ) * q ) ) ; } }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_4 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = Double . IDENT_3 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_4 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . IDENT_5 ) { return org . hipparchus . IDENT_0 . IDENT_5 . METHOD_2 ( this , q ) ; }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_4 ) , x . METHOD_2 ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; double IDENT_2 = 2.0 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . IDENT_4 ) { return org . hipparchus . IDENT_0 . IDENT_4 . METHOD_2 ( this , q ) ; }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_3 ) , x . METHOD_2 ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) { return org . hipparchus . util . IDENT_6 . equals ( row , ( ( org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertFalse ( x . equals ( null ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) { return org . hipparchus . util . IDENT_6 . equals ( row , ( ( org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertFalse ( x . equals ( this ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) { return org . hipparchus . util . IDENT_6 . equals ( row , ( ( org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertTrue ( x . equals ( x ) )
METHOD_0 ( ) { instance = new org . apache . camel . component . IDENT_0 . METHOD_1 ( IDENT_1 , IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return STRING_0 ; }	org . junit . Assert . assertEquals ( STRING_0 , instance . METHOD_2 ( ) )
METHOD_0 ( ) { final double IDENT_0 = FLOAT_0 ; final double IDENT_1 = 1 ; final double IDENT_2 = FLOAT_1 ; final double f = 1 + IDENT_0 ; final org . hipparchus . IDENT_3 . IDENT_4 x = new org . hipparchus . IDENT_3 . METHOD_1 ( IDENT_1 , IDENT_2 ) ; final org . hipparchus . IDENT_3 . METHOD_1 y = new org . hipparchus . IDENT_3 . METHOD_1 ( ( IDENT_1 * f ) , ( IDENT_2 * f ) ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_3 . METHOD_1 , org . hipparchus . IDENT_3 . METHOD_1 , double ) { return ( org . hipparchus . util . IDENT_5 . METHOD_2 ( x . IDENT_6 , y . IDENT_6 , IDENT_7 ) ) && ( org . hipparchus . util . IDENT_5 . METHOD_2 ( x . IDENT_8 , y . IDENT_8 , IDENT_7 ) ) ; }	org . junit . Assert . assertTrue ( org . hipparchus . IDENT_3 . METHOD_1 . METHOD_2 ( x , y , IDENT_0 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; org . hipparchus . IDENT_0 . METHOD_1 y = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 , FLOAT_1 ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) { return org . hipparchus . util . IDENT_6 . equals ( row , ( ( org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 . IDENT_5 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertTrue ( x . equals ( y ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( 0.0 , 0.0 ) ; org . hipparchus . IDENT_0 . METHOD_1 y = new org . hipparchus . IDENT_0 . METHOD_1 ( ( 0.0 + ( Double . IDENT_2 ) ) , 0.0 ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_3 . IDENT_4 . IDENT_5 . IDENT_6 ) { return org . hipparchus . util . IDENT_7 . equals ( row , ( ( org . hipparchus . IDENT_3 . IDENT_4 . IDENT_5 . IDENT_6 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertFalse ( x . equals ( y ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( 0.0 , 0.0 ) ; org . hipparchus . IDENT_0 . METHOD_1 y = new org . hipparchus . IDENT_0 . METHOD_1 ( 0.0 , ( 0.0 + ( Double . IDENT_2 ) ) ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . IDENT_3 . IDENT_4 . IDENT_5 . IDENT_6 ) { return org . hipparchus . util . IDENT_7 . equals ( row , ( ( org . hipparchus . IDENT_3 . IDENT_4 . IDENT_5 . IDENT_6 ) ( other ) ) . row ) ; } return false ; }	org . junit . Assert . assertFalse ( x . equals ( y ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return this . add ( this . METHOD_2 ( ) . METHOD_3 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 ) ) . log ( ) . METHOD_3 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 . METHOD_4 ( ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_5 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return this . add ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 ) . METHOD_2 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 . METHOD_3 ( this ) ) . log ( ) . METHOD_4 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 . METHOD_2 ( METHOD_5 ( 2.0 , 0.0 ) ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_4 . METHOD_1 ( ) . METHOD_6 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return this . add ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 ) . METHOD_2 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 . METHOD_3 ( this ) ) . log ( ) . METHOD_4 ( org . hipparchus . IDENT_1 . IDENT_2 . IDENT_4 . METHOD_2 ( METHOD_5 ( 2.0 , 0.0 ) ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_6 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return METHOD_2 ( ( ( org . hipparchus . util . IDENT_4 . METHOD_1 ( IDENT_5 ) ) * ( org . hipparchus . util . IDENT_4 . METHOD_3 ( IDENT_6 ) ) ) , ( ( - ( org . hipparchus . util . IDENT_4 . METHOD_4 ( IDENT_5 ) ) ) * ( org . hipparchus . util . IDENT_4 . METHOD_5 ( IDENT_6 ) ) ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_6 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return METHOD_2 ( ( ( org . hipparchus . util . IDENT_4 . METHOD_1 ( IDENT_5 ) ) * ( org . hipparchus . util . IDENT_4 . METHOD_3 ( IDENT_6 ) ) ) , ( ( org . hipparchus . util . IDENT_4 . METHOD_4 ( IDENT_5 ) ) * ( org . hipparchus . util . IDENT_4 . METHOD_5 ( IDENT_6 ) ) ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_6 ( ) )
METHOD_0 ( ) { java . lang . System . setProperty ( IDENT_0 . IDENT_1 , STRING_0 ) ; instance = new org . apache . camel . component . IDENT_2 . METHOD_1 ( org . apache . camel . component . IDENT_2 . IDENT_3 . IDENT_4 , org . apache . camel . component . IDENT_2 . IDENT_3 . IDENT_5 , org . apache . camel . component . IDENT_2 . IDENT_3 . IDENT_5 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( java . lang . String , java . lang . String ) { java . lang . StringBuilder IDENT_6 = new java . lang . StringBuilder ( ) ; IDENT_6 . append ( org . apache . camel . component . IDENT_2 . IDENT_3 . IDENT_4 ) ; if ( IDENT_7 != null ) { IDENT_6 . append ( STRING_1 ) . append ( IDENT_7 . length ( ) ) . append ( STRING_2 ) . append ( IDENT_7 . replaceAll ( STRING_3 , STRING_4 ) . replaceAll ( "\n" , STRING_5 ) ) . append ( STRING_6 ) ; } if ( IDENT_8 != null ) { IDENT_6 . append ( STRING_7 ) . append ( IDENT_8 . length ( ) ) . append ( STRING_2 ) . append ( IDENT_8 . replaceAll ( STRING_3 , STRING_4 ) . replaceAll ( "\n" , STRING_5 ) ) . append ( STRING_6 ) ; } return IDENT_6 . toString ( ) ; }	org . junit . Assert . assertEquals ( METHOD_2 ( null , null ) , instance . getMessage ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } exp ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } double IDENT_4 = org . hipparchus . util . IDENT_5 . exp ( IDENT_6 ) ; return METHOD_1 ( ( IDENT_4 * ( org . hipparchus . util . IDENT_5 . METHOD_2 ( IDENT_7 ) ) ) , ( IDENT_4 * ( org . hipparchus . util . IDENT_5 . METHOD_3 ( IDENT_7 ) ) ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . exp ( ) . METHOD_4 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } log ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } return METHOD_1 ( org . hipparchus . util . IDENT_4 . log ( METHOD_2 ( ) ) , org . hipparchus . util . IDENT_4 . METHOD_3 ( IDENT_5 , IDENT_6 ) ) ; }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . log ( ) . METHOD_4 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = new org . hipparchus . IDENT_0 . METHOD_1 ( 3 , 4 ) ; double IDENT_2 = FLOAT_0 ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . METHOD_1 ) { org . hipparchus . util . IDENT_4 . METHOD_3 ( x ) ; return this . log ( ) . METHOD_4 ( x ) . exp ( ) ; }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_3 ) , x . METHOD_2 ( IDENT_2 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 x = org . hipparchus . IDENT_0 . IDENT_1 . IDENT_2 ; double IDENT_3 = FLOAT_0 ; org . hipparchus . IDENT_0 . IDENT_1 IDENT_4 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_3 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( org . hipparchus . IDENT_0 . METHOD_1 ) { org . hipparchus . util . IDENT_5 . METHOD_3 ( x ) ; return this . log ( ) . METHOD_4 ( x ) . exp ( ) ; }	org . junit . Assert . assertEquals ( x . METHOD_2 ( IDENT_4 ) , x . METHOD_2 ( IDENT_3 ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( IDENT_0 ) { return org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 ; } if ( ( ( IDENT_4 ) == 0.0 ) && ( ( IDENT_5 ) == 0.0 ) ) { return METHOD_2 ( 0.0 , 0.0 ) ; } double t = org . hipparchus . util . IDENT_6 . METHOD_1 ( ( ( ( org . hipparchus . util . IDENT_6 . METHOD_3 ( IDENT_4 ) ) + ( METHOD_3 ( ) ) ) / 2.0 ) ) ; if ( ( IDENT_4 ) >= 0.0 ) { return METHOD_2 ( t , ( ( IDENT_5 ) / ( 2.0 * t ) ) ) ; } else { return METHOD_2 ( ( ( org . hipparchus . util . IDENT_6 . METHOD_3 ( IDENT_5 ) ) / ( 2.0 * t ) ) , ( ( org . hipparchus . util . IDENT_6 . METHOD_4 ( 1.0 , IDENT_5 ) ) * t ) ) ; } }	org . junit . Assert . assertTrue ( IDENT_2 . IDENT_3 . METHOD_1 ( ) . METHOD_5 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( ( IDENT_0 ) \|\| ( java . lang . Double . METHOD_2 ( IDENT_1 ) ) ) { return org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 ; } if ( ( IDENT_5 ) > FLOAT_0 ) { return METHOD_3 ( 0.0 , 1.0 ) ; } if ( ( IDENT_5 ) < ( - FLOAT_0 ) ) { return METHOD_3 ( 0.0 , ( - 1.0 ) ) ; } double IDENT_6 = 2.0 * ( IDENT_1 ) ; double IDENT_7 = 2.0 * ( IDENT_5 ) ; double d = ( org . hipparchus . util . IDENT_8 . METHOD_4 ( IDENT_6 ) ) + ( org . hipparchus . util . IDENT_8 . METHOD_5 ( IDENT_7 ) ) ; return METHOD_3 ( ( ( org . hipparchus . util . IDENT_8 . METHOD_6 ( IDENT_6 ) ) / d ) , ( ( org . hipparchus . util . IDENT_8 . METHOD_7 ( IDENT_7 ) ) / d ) ) ; }	org . junit . Assert . assertTrue ( IDENT_3 . IDENT_4 . METHOD_1 ( ) . METHOD_8 ( ) )
METHOD_0 ( ) { "<AssertPlaceHolder>" ; } METHOD_1 ( ) { if ( ( IDENT_0 ) \|\| ( java . lang . Double . METHOD_2 ( IDENT_1 ) ) ) { return org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 ; } if ( ( IDENT_5 ) > FLOAT_0 ) { return METHOD_3 ( 1.0 , 0.0 ) ; } if ( ( IDENT_5 ) < ( - FLOAT_0 ) ) { return METHOD_3 ( ( - 1.0 ) , 0.0 ) ; } double IDENT_6 = 2.0 * ( IDENT_5 ) ; double IDENT_7 = 2.0 * ( IDENT_1 ) ; double d = ( org . hipparchus . util . IDENT_8 . METHOD_4 ( IDENT_6 ) ) + ( org . hipparchus . util . IDENT_8 . METHOD_5 ( IDENT_7 ) ) ; return METHOD_3 ( ( ( org . hipparchus . util . IDENT_8 . METHOD_6 ( IDENT_6 ) ) / d ) , ( ( org . hipparchus . util . IDENT_8 . METHOD_7 ( IDENT_7 ) ) / d ) ) ; }	org . junit . Assert . assertTrue ( IDENT_3 . IDENT_4 . METHOD_1 ( ) . METHOD_8 ( ) )
METHOD_0 ( ) { instance = new org . apache . camel . component . IDENT_0 . IDENT_1 . METHOD_1 ( org . apache . camel . component . IDENT_0 . IDENT_1 . IDENT_2 , IDENT_3 , IDENT_4 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return STRING_0 ; }	org . junit . Assert . assertNull ( instance . METHOD_2 ( ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 IDENT_2 = new org . hipparchus . IDENT_0 . METHOD_1 ( 1 ) ; org . hipparchus . IDENT_0 . IDENT_3 IDENT_4 = IDENT_2 . METHOD_2 ( ( - 0.0 ) ) ; org . hipparchus . IDENT_0 . IDENT_3 IDENT_5 = IDENT_2 . METHOD_2 ( 0L ) ; "<AssertPlaceHolder>" ; } equals ( java . lang . Object ) { if ( ( this ) == other ) { return true ; } if ( other instanceof org . hipparchus . geometry . IDENT_6 . IDENT_7 . IDENT_8 ) { final org . hipparchus . geometry . IDENT_6 . IDENT_7 . IDENT_8 IDENT_9 = ( ( org . hipparchus . geometry . IDENT_6 . IDENT_7 . IDENT_8 ) ( other ) ) ; if ( IDENT_9 . METHOD_3 ( ) ) { return this . METHOD_3 ( ) ; } return ( ( IDENT_10 ) == ( IDENT_9 . IDENT_10 ) ) && ( ( IDENT_11 ) == ( IDENT_9 . IDENT_11 ) ) ; } return false ; }	org . junit . Assert . assertTrue ( ( IDENT_5 . equals ( IDENT_4 ) ? ( IDENT_5 . hashCode ( ) ) == ( IDENT_4 . hashCode ( ) ) : true ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 IDENT_2 = METHOD_1 ( ) ; for ( double x : METHOD_2 ( ) ) { "<AssertPlaceHolder>" ; } } METHOD_3 ( double ) { org . hipparchus . util . IDENT_3 . METHOD_4 ( p , 0 , 1 ) ; if ( p == 1 ) { return Integer . MAX_VALUE ; } if ( p == 0 ) { return 0 ; } return java . lang . Math . max ( 0 , ( ( int ) ( java . lang . Math . METHOD_5 ( ( ( ( org . hipparchus . util . IDENT_4 . METHOD_6 ( ( - p ) ) ) / ( IDENT_5 ) ) - 1 ) ) ) ) ) ; }	org . junit . Assert . assertEquals ( 1 , IDENT_2 . METHOD_3 ( x ) , 0 )
METHOD_0 ( ) { double [ ] IDENT_0 = new double [ ] { - 2.0 , - 1.0 , 0.0 , 1.0 , 2.0 , FLOAT_0 , FLOAT_1 , FLOAT_2 , FLOAT_3 , FLOAT_4 , FLOAT_5 } ; double [ ] results = new double [ ] { 0 , FLOAT_6 , 0 , 0 , 0 , FLOAT_7 , 0 , 0 , 0 , FLOAT_8 , 0 } ; for ( int p = 0 ; p < ( IDENT_0 . length ) ; p ++ ) { double IDENT_1 = IDENT_2 . METHOD_1 ( IDENT_0 [ p ] ) ; "<AssertPlaceHolder>" ; } } METHOD_1 ( double ) { if ( x < ( IDENT_3 ) ) { return Double . IDENT_4 ; } final double IDENT_5 = x - ( IDENT_3 ) ; final double f = ( IDENT_6 ) / IDENT_5 ; return ( ( org . hipparchus . util . IDENT_7 . METHOD_2 ( ( f / ( org . hipparchus . util . IDENT_7 . IDENT_8 ) ) ) ) * ( org . hipparchus . util . IDENT_7 . exp ( ( - f ) ) ) ) / IDENT_5 ; }	org . junit . Assert . assertEquals ( results [ p ] , METHOD_1 , 0.0 )
METHOD_0 ( ) { try { double IDENT_0 = FLOAT_0 ; org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 f = new org . hipparchus . IDENT_1 . IDENT_2 . METHOD_1 ( INT_0 , INT_0 ) ; double result = f . METHOD_2 ( IDENT_0 ) ; "<AssertPlaceHolder>" ; } catch ( java . lang . Exception e ) { org . junit . Assert . fail ( STRING_0 ) ; } } METHOD_2 ( double ) { org . hipparchus . util . IDENT_4 . METHOD_3 ( p , 0 , 1 ) ; return ( p * ( ( IDENT_5 ) - ( IDENT_6 ) ) ) + ( IDENT_6 ) ; }	org . junit . Assert . assertTrue ( ( result < 1.0 ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 . IDENT_2 IDENT_3 = new org . hipparchus . IDENT_0 . IDENT_1 . METHOD_1 ( 1 , 2 ) ; "<AssertPlaceHolder>" ; try { new org . hipparchus . IDENT_0 . IDENT_1 . METHOD_1 ( 0 , 2 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 e ) { } } METHOD_2 ( ) { return IDENT_5 ; }	org . junit . Assert . assertEquals ( 1 , IDENT_3 . METHOD_2 ( ) , 0 )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 . IDENT_2 IDENT_3 = new org . hipparchus . IDENT_0 . IDENT_1 . METHOD_1 ( 1 , 2 ) ; "<AssertPlaceHolder>" ; try { new org . hipparchus . IDENT_0 . IDENT_1 . METHOD_1 ( 1 , 0 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 e ) { } } METHOD_2 ( ) { return IDENT_5 ; }	org . junit . Assert . assertEquals ( 2 , IDENT_3 . METHOD_2 ( ) , 0 )
METHOD_0 ( ) { for ( int IDENT_0 = INT_0 ; IDENT_0 < INT_1 ; IDENT_0 += INT_2 ) { org . hipparchus . IDENT_1 . IDENT_2 . IDENT_3 IDENT_4 = new org . hipparchus . IDENT_1 . IDENT_2 . METHOD_1 ( IDENT_0 , FLOAT_0 ) ; int p = IDENT_4 . METHOD_2 ( FLOAT_0 ) ; "<AssertPlaceHolder>" ; } } METHOD_2 ( double ) { org . hipparchus . util . IDENT_5 . METHOD_3 ( p , 0 , 1 ) ; if ( p == 1 ) { return Integer . MAX_VALUE ; } if ( p == 0 ) { return 0 ; } return java . lang . Math . max ( 0 , ( ( int ) ( java . lang . Math . METHOD_4 ( ( ( ( org . hipparchus . util . IDENT_6 . METHOD_5 ( ( - p ) ) ) / ( IDENT_7 ) ) - 1 ) ) ) ) ) ; }	org . junit . Assert . assertEquals ( ( IDENT_0 / 2 ) , p )
METHOD_0 ( ) { byte [ ] IDENT_0 = org . apache . camel . component . IDENT_1 . internal . IDENT_2 . IDENT_3 . getBytes ( ) ; java . io . ByteArrayOutputStream IDENT_4 = new java . io . ByteArrayOutputStream ( ( ( IDENT_0 . length ) + 1 ) ) ; int IDENT_5 = ( IDENT_0 . length ) / 2 ; IDENT_4 . write ( IDENT_0 , 0 , IDENT_5 ) ; IDENT_4 . write ( IDENT_6 . IDENT_7 ) ; IDENT_4 . write ( IDENT_0 , IDENT_5 , ( ( IDENT_0 . length ) - IDENT_5 ) ) ; java . lang . String expected = STRING_0 + IDENT_5 ; "<AssertPlaceHolder>" ; } METHOD_1 ( byte [ ] ) { if ( IDENT_8 == null ) { return STRING_1 ; } return org . apache . camel . component . IDENT_1 . internal . IDENT_9 . METHOD_1 ( IDENT_8 , IDENT_8 . length ) ; }	org . junit . Assert . assertEquals ( expected , org . apache . camel . component . IDENT_1 . internal . IDENT_9 . METHOD_1 ( IDENT_4 . toByteArray ( ) ) )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 . IDENT_2 IDENT_3 = new org . hipparchus . IDENT_0 . IDENT_1 . METHOD_1 ( FLOAT_0 ) ; "<AssertPlaceHolder>" ; } METHOD_2 ( ) { return IDENT_4 ; }	org . junit . Assert . assertEquals ( FLOAT_0 , IDENT_3 . METHOD_2 ( ) , 0.0 )
METHOD_0 ( ) { final double [ ] IDENT_0 = new double [ ] { - FLOAT_0 , 2 } ; final double [ ] [ ] IDENT_1 = new double [ ] [ ] { new double [ ] { 2 , - FLOAT_1 } , new double [ ] { - FLOAT_1 , 2 } } ; final org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 d = new org . hipparchus . IDENT_2 . IDENT_3 . METHOD_1 ( IDENT_0 , IDENT_1 ) ; final double [ ] m = d . METHOD_2 ( ) ; for ( int i = 0 ; i < ( m . length ) ; i ++ ) { "<AssertPlaceHolder>" ; } } METHOD_2 ( ) { return IDENT_5 . METHOD_3 ( ) ; }	org . junit . Assert . assertEquals ( IDENT_0 [ i ] , m [ i ] , 0 )
METHOD_0 ( ) { final double [ ] IDENT_0 = new double [ ] { - FLOAT_0 , 2 } ; final double [ ] [ ] IDENT_1 = new double [ ] [ ] { new double [ ] { 2 , - FLOAT_1 } , new double [ ] { - FLOAT_1 , 2 } } ; final org . hipparchus . IDENT_2 . IDENT_3 . IDENT_4 d = new org . hipparchus . IDENT_2 . IDENT_3 . METHOD_1 ( IDENT_0 , IDENT_1 ) ; final org . hipparchus . linear . IDENT_5 s = d . METHOD_2 ( ) ; final int IDENT_6 = d . METHOD_3 ( ) ; for ( int i = 0 ; i < IDENT_6 ; i ++ ) { for ( int j = 0 ; j < IDENT_6 ; j ++ ) { "<AssertPlaceHolder>" ; } } } METHOD_4 ( int , int ) { return m . METHOD_4 ( row , column ) ; }	org . junit . Assert . assertEquals ( IDENT_1 [ i ] [ j ] , s . METHOD_4 ( i , j ) , 0 )
METHOD_0 ( ) { for ( org . hipparchus . exception . IDENT_0 message : METHOD_1 ( ) ) { java . lang . String IDENT_1 = message . METHOD_2 ( Locale . IDENT_2 ) ; "<AssertPlaceHolder>" ; } } METHOD_3 ( ) { return IDENT_3 ; }	org . junit . Assert . assertEquals ( message . METHOD_3 ( ) , IDENT_1 )
METHOD_0 ( ) { org . hipparchus . IDENT_0 . IDENT_1 IDENT_2 = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_0 ) ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_3 = new org . hipparchus . IDENT_0 . METHOD_1 ( FLOAT_1 ) . METHOD_2 ( ) ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_4 = IDENT_2 . METHOD_3 ( IDENT_3 ) ; org . hipparchus . IDENT_0 . METHOD_1 IDENT_5 = new org . hipparchus . IDENT_0 . METHOD_1 ( IDENT_2 . METHOD_4 ( ) . METHOD_3 ( IDENT_3 . METHOD_4 ( ) ) , IDENT_2 . METHOD_5 ( ) . METHOD_3 ( IDENT_3 . METHOD_5 ( ) ) ) ; "<AssertPlaceHolder>" ; } METHOD_5 ( ) { return IDENT_6 ; }	org . junit . Assert . assertEquals ( IDENT_5 , IDENT_4 )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 < org . hipparchus . IDENT_1 . IDENT_2 > m = new org . hipparchus . linear . IDENT_3 < org . hipparchus . IDENT_1 . IDENT_2 > ( IDENT_4 ) ; "<AssertPlaceHolder>" ; m . METHOD_1 ( 0 , IDENT_5 [ 0 ] ) ; METHOD_2 ( IDENT_5 [ 0 ] , m . METHOD_3 ( 0 ) ) ; try { m . METHOD_1 ( ( - 1 ) , IDENT_5 [ 0 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_6 ex ) { } try { m . METHOD_1 ( 0 , new org . hipparchus . IDENT_1 . IDENT_2 [ 5 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_6 ex ) { } } METHOD_3 ( int ) { return IDENT_7 . METHOD_4 ( ) [ row ] ; }	org . junit . Assert . assertTrue ( ( ( IDENT_5 [ 0 ] [ 0 ] ) != ( m . METHOD_3 ( 0 ) [ 0 ] ) ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 < org . hipparchus . IDENT_1 . IDENT_2 > m = new org . hipparchus . linear . IDENT_3 < org . hipparchus . IDENT_1 . IDENT_2 > ( IDENT_4 ) ; org . hipparchus . IDENT_1 . IDENT_2 [ ] IDENT_5 = METHOD_1 ( IDENT_6 ) ; "<AssertPlaceHolder>" ; m . METHOD_2 ( 1 , IDENT_5 ) ; METHOD_3 ( IDENT_5 , m . METHOD_4 ( 1 ) ) ; try { m . METHOD_2 ( ( - 1 ) , IDENT_5 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_7 ex ) { } try { m . METHOD_2 ( 0 , new org . hipparchus . IDENT_1 . IDENT_2 [ 5 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_7 ex ) { } } METHOD_4 ( int ) { org . hipparchus . linear . IDENT_8 . METHOD_5 ( this , column ) ; final double [ ] out = new double [ IDENT_9 ] ; final int IDENT_10 = column / ( org . hipparchus . linear . IDENT_11 . IDENT_12 ) ; final int IDENT_13 = column - ( IDENT_10 * ( org . hipparchus . linear . IDENT_11 . IDENT_12 ) ) ; final int IDENT_14 = METHOD_6 ( IDENT_10 ) ; int IDENT_15 = 0 ; for ( int IDENT_16 = 0 ; IDENT_16 < ( IDENT_17 ) ; ++ IDENT_16 ) { final int IDENT_18 = METHOD_7 ( IDENT_16 ) ; final double [ ] block = IDENT_19 [ ( ( IDENT_16 * ( IDENT_20 ) ) + IDENT_10 ) ] ; for ( int i = 0 ; i < IDENT_18 ; ++ i ) { out [ ( IDENT_15 ++ ) ] = block [ ( ( i * IDENT_14 ) + IDENT_13 ) ] ; } } return out ; }	org . junit . Assert . assertTrue ( ( ( IDENT_5 [ 0 ] ) != ( m . METHOD_4 ( 1 ) [ 0 ] ) ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = new org . hipparchus . linear . METHOD_1 ( IDENT_1 ) ; "<AssertPlaceHolder>" ; m . METHOD_2 ( 0 , IDENT_2 [ 0 ] ) ; METHOD_3 ( IDENT_2 [ 0 ] , m . METHOD_4 ( 0 ) ) ; try { m . METHOD_2 ( ( - 1 ) , IDENT_2 [ 0 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_3 ex ) { } try { m . METHOD_2 ( 0 , new double [ 5 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_3 ex ) { } } METHOD_4 ( int ) { return IDENT_4 . METHOD_5 ( ) [ row ] ; }	org . junit . Assert . assertTrue ( ( ( IDENT_2 [ 0 ] [ 0 ] ) != ( m . METHOD_4 ( 0 ) [ 0 ] ) ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = new org . hipparchus . linear . METHOD_1 ( IDENT_1 ) ; double [ ] IDENT_2 = METHOD_2 ( IDENT_3 ) ; "<AssertPlaceHolder>" ; m . METHOD_3 ( 1 , IDENT_2 ) ; METHOD_4 ( IDENT_2 , m . METHOD_5 ( 1 ) ) ; try { m . METHOD_3 ( ( - 1 ) , IDENT_2 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 ex ) { } try { m . METHOD_3 ( 0 , new double [ 5 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 ex ) { } } METHOD_5 ( int ) { org . hipparchus . linear . IDENT_5 . METHOD_6 ( this , column ) ; final double [ ] out = new double [ IDENT_6 ] ; final int IDENT_7 = column / ( org . hipparchus . linear . IDENT_8 . IDENT_9 ) ; final int IDENT_10 = column - ( IDENT_7 * ( org . hipparchus . linear . IDENT_8 . IDENT_9 ) ) ; final int IDENT_11 = METHOD_7 ( IDENT_7 ) ; int IDENT_12 = 0 ; for ( int IDENT_13 = 0 ; IDENT_13 < ( IDENT_14 ) ; ++ IDENT_13 ) { final int IDENT_15 = METHOD_8 ( IDENT_13 ) ; final double [ ] block = IDENT_16 [ ( ( IDENT_13 * ( IDENT_17 ) ) + IDENT_7 ) ] ; for ( int i = 0 ; i < IDENT_15 ; ++ i ) { out [ ( IDENT_12 ++ ) ] = block [ ( ( i * IDENT_11 ) + IDENT_10 ) ] ; } } return out ; }	org . junit . Assert . assertTrue ( ( ( IDENT_2 [ 0 ] ) != ( m . METHOD_5 ( 1 ) [ 0 ] ) ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 < org . hipparchus . IDENT_1 . IDENT_2 > m = new org . hipparchus . linear . IDENT_3 < org . hipparchus . IDENT_1 . IDENT_2 > ( IDENT_4 ) ; "<AssertPlaceHolder>" ; try { m . METHOD_1 ( 10 , 4 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_5 ex ) { } } METHOD_1 ( int , int ) { return IDENT_6 . METHOD_1 ( row , column ) ; }	org . junit . Assert . assertEquals ( m . METHOD_1 ( 0 , 1 ) , new org . hipparchus . IDENT_1 . METHOD_2 ( 2 ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = new org . hipparchus . linear . METHOD_1 ( IDENT_1 ) ; double [ ] IDENT_2 = METHOD_2 ( IDENT_3 ) ; "<AssertPlaceHolder>" ; m . METHOD_3 ( 1 , IDENT_2 ) ; METHOD_4 ( IDENT_2 , m . METHOD_5 ( 1 ) ) ; try { m . METHOD_3 ( ( - 1 ) , IDENT_2 ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 ex ) { } try { m . METHOD_3 ( 0 , new double [ 5 ] ) ; org . junit . Assert . fail ( STRING_0 ) ; } catch ( org . hipparchus . exception . IDENT_4 ex ) { } } METHOD_5 ( int ) { org . hipparchus . linear . IDENT_5 . METHOD_6 ( this , column ) ; final double [ ] out = new double [ IDENT_6 ] ; final int IDENT_7 = column / ( org . hipparchus . linear . METHOD_1 . IDENT_8 ) ; final int IDENT_9 = column - ( IDENT_7 * ( org . hipparchus . linear . METHOD_1 . IDENT_8 ) ) ; final int IDENT_10 = METHOD_7 ( IDENT_7 ) ; int IDENT_11 = 0 ; for ( int IDENT_12 = 0 ; IDENT_12 < ( IDENT_13 ) ; ++ IDENT_12 ) { final int IDENT_14 = METHOD_8 ( IDENT_12 ) ; final double [ ] block = IDENT_15 [ ( ( IDENT_12 * ( IDENT_16 ) ) + IDENT_7 ) ] ; for ( int i = 0 ; i < IDENT_14 ; ++ i ) { out [ ( IDENT_11 ++ ) ] = block [ ( ( i * IDENT_10 ) + IDENT_9 ) ] ; } } return out ; }	org . junit . Assert . assertTrue ( ( ( IDENT_2 [ 0 ] ) != ( m . METHOD_5 ( 1 ) [ 0 ] ) ) )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 IDENT_1 = org . hipparchus . linear . IDENT_2 . METHOD_1 ( IDENT_3 ) ; org . hipparchus . linear . IDENT_0 l = new org . hipparchus . linear . METHOD_2 ( IDENT_1 ) . METHOD_3 ( ) ; for ( int i = 0 ; i < ( l . METHOD_4 ( ) ) ; i ++ ) { for ( int j = i + 1 ; j < ( l . METHOD_5 ( ) ) ; j ++ ) { "<AssertPlaceHolder>" ; } } } METHOD_6 ( int , int ) { return m . METHOD_6 ( row , column ) ; }	org . junit . Assert . assertEquals ( 0.0 , l . METHOD_6 ( i , j ) , 0.0 )
METHOD_0 ( ) { final int n = 8 ; final int IDENT_0 = 100 ; final org . hipparchus . linear . IDENT_1 a = new org . hipparchus . linear . METHOD_1 ( n ) ; final org . hipparchus . linear . IDENT_2 IDENT_3 = new org . hipparchus . linear . METHOD_2 ( n ) ; final org . hipparchus . linear . IDENT_1 m = org . hipparchus . linear . IDENT_4 . create ( a ) ; final org . hipparchus . linear . IDENT_5 IDENT_6 ; IDENT_6 = new org . hipparchus . linear . METHOD_3 ( IDENT_0 , FLOAT_0 , true ) ; final org . hipparchus . linear . IDENT_7 b = new org . hipparchus . linear . METHOD_4 ( n ) ; for ( int j = 0 ; j < n ; j ++ ) { b . set ( 0.0 ) ; b . METHOD_5 ( j , 1.0 ) ; final org . hipparchus . linear . IDENT_7 x = IDENT_6 . METHOD_6 ( a , m , b ) ; for ( int i = 0 ; i < n ; i ++ ) { final double actual = x . METHOD_7 ( i ) ; final double expected = IDENT_3 . METHOD_7 ( i , j ) ; final double IDENT_8 = FLOAT_1 * ( org . hipparchus . util . IDENT_9 . METHOD_8 ( expected ) ) ; final java . lang . String msg = java . lang . String . format ( STRING_0 , i , j ) ; "<AssertPlaceHolder>" ; } } } format ( org . hipparchus . geometry . IDENT_10 , java . lang . StringBuffer , java . text . IDENT_11 ) { final org . hipparchus . geometry . IDENT_12 . IDENT_13 . IDENT_14 IDENT_15 = ( ( org . hipparchus . geometry . IDENT_12 . IDENT_13 . IDENT_14 ) ( IDENT_16 ) ) ; return format ( IDENT_17 , pos , IDENT_15 . METHOD_9 ( ) , IDENT_15 . METHOD_10 ( ) ) ; }	org . junit . Assert . assertEquals ( msg , expected , actual , IDENT_8 )
METHOD_0 ( ) { final double [ ] data = new double [ ] { - FLOAT_0 , FLOAT_1 , 5 } ; final org . hipparchus . linear . IDENT_0 m = new org . hipparchus . linear . METHOD_1 ( data ) ; for ( int i = 0 ; i < ( m . METHOD_2 ( ) ) ; i ++ ) { m . METHOD_3 ( i , i , i ) ; "<AssertPlaceHolder>" ; } } METHOD_4 ( int , int ) { return IDENT_1 . METHOD_4 ( row , column ) ; }	org . junit . Assert . assertEquals ( ( ( data [ i ] ) + i ) , m . METHOD_4 ( i , i ) , 0.0 )
METHOD_0 ( ) { final java . lang . String IDENT_0 = ( ( ( org . apache . camel . component . IDENT_1 . internal . IDENT_2 . IDENT_3 ) + STRING_0 ) + STRING_1 ) + ( org . apache . camel . component . IDENT_1 . internal . IDENT_2 . IDENT_4 ) ; "<AssertPlaceHolder>" ; } METHOD_1 ( byte [ ] ) { java . lang . String IDENT_5 = "" ; if ( ( IDENT_6 != null ) && ( ( IDENT_6 . length ) > 0 ) ) { java . util . List < java . lang . Integer > IDENT_7 = org . apache . camel . component . IDENT_1 . internal . IDENT_8 . METHOD_2 ( IDENT_6 , 0 ) ; if ( ( IDENT_7 . size ( ) ) > INT_0 ) { int IDENT_9 = ( IDENT_7 . get ( 16 ) ) + 1 ; int length = ( ( IDENT_7 . get ( INT_0 ) ) - ( IDENT_7 . get ( 16 ) ) ) - 1 ; if ( length > 0 ) { IDENT_5 = new java . lang . String ( IDENT_6 , IDENT_9 , length , org . apache . camel . component . IDENT_1 . IDENT_10 . METHOD_3 ( ) ) ; } } } return IDENT_5 ; }	org . junit . Assert . assertEquals ( "" , org . apache . camel . component . IDENT_1 . internal . IDENT_8 . METHOD_1 ( IDENT_0 . getBytes ( ) ) )
METHOD_0 ( ) { final double [ ] data = new double [ ] { - FLOAT_0 , FLOAT_1 , 5 } ; final org . hipparchus . linear . IDENT_0 m = new org . hipparchus . linear . METHOD_1 ( data ) ; for ( int i = 0 ; i < ( m . METHOD_2 ( ) ) ; i ++ ) { m . METHOD_3 ( i , i , i ) ; "<AssertPlaceHolder>" ; } } METHOD_4 ( int , int ) { return IDENT_1 . METHOD_4 ( row , column ) ; }	org . junit . Assert . assertEquals ( ( ( data [ i ] ) * i ) , m . METHOD_4 ( i , i ) , 0.0 )
METHOD_0 ( ) { final double [ ] IDENT_0 = new double [ ] { - FLOAT_0 , FLOAT_1 , 5 } ; final org . hipparchus . linear . IDENT_1 IDENT_2 = new org . hipparchus . linear . METHOD_1 ( IDENT_0 ) ; final double [ ] [ ] IDENT_3 = new double [ ] [ ] { new double [ ] { - FLOAT_0 , FLOAT_1 } , new double [ ] { - FLOAT_2 , FLOAT_3 } , new double [ ] { FLOAT_4 , FLOAT_5 } } ; final org . hipparchus . linear . IDENT_4 IDENT_5 = new org . hipparchus . linear . METHOD_2 ( IDENT_3 ) ; final org . hipparchus . linear . IDENT_4 IDENT_6 = new org . hipparchus . linear . METHOD_2 ( IDENT_2 . METHOD_3 ( ) ) ; final org . hipparchus . linear . IDENT_4 IDENT_7 = IDENT_2 . METHOD_4 ( IDENT_5 ) ; final org . hipparchus . linear . IDENT_4 IDENT_8 = IDENT_6 . METHOD_4 ( IDENT_5 ) ; for ( int i = 0 ; i < ( IDENT_6 . METHOD_5 ( ) ) ; i ++ ) { for ( int j = 0 ; j < ( IDENT_5 . METHOD_6 ( ) ) ; j ++ ) { "<AssertPlaceHolder>" ; } } } METHOD_7 ( int , int ) { return IDENT_9 . METHOD_7 ( row , column ) ; }	org . junit . Assert . assertEquals ( IDENT_8 . METHOD_7 ( i , j ) , IDENT_7 . METHOD_7 ( i , j ) , 0.0 )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { 1 , 1 , 1 } , new double [ ] { 1 , 1 , 1 } } ) ; java . lang . String expected = STRING_0 ; java . lang . String actual = IDENT_2 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_2 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { FLOAT_0 , FLOAT_1 , FLOAT_2 } , new double [ ] { FLOAT_3 , FLOAT_3 , FLOAT_4 } } ) ; java . lang . String expected = ( ( ( ( ( ( ( ( ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ) + ( METHOD_2 ( ) ) ) + STRING_3 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_5 ; java . lang . String actual = IDENT_2 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { - FLOAT_0 , FLOAT_1 , FLOAT_2 } , new double [ ] { FLOAT_3 , FLOAT_3 , FLOAT_4 } } ) ; java . lang . String expected = ( ( ( ( ( ( ( ( ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ) + ( METHOD_2 ( ) ) ) + STRING_3 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_5 ; java . lang . String actual = IDENT_2 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { FLOAT_0 , - FLOAT_1 , FLOAT_2 } , new double [ ] { FLOAT_3 , FLOAT_3 , FLOAT_4 } } ) ; java . lang . String expected = ( ( ( ( ( ( ( ( ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ) + ( METHOD_2 ( ) ) ) + STRING_3 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_5 ; java . lang . String actual = IDENT_2 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { FLOAT_0 , FLOAT_1 , FLOAT_2 } , new double [ ] { - FLOAT_3 , FLOAT_4 , FLOAT_5 } } ) ; java . lang . String expected = ( ( ( ( ( ( ( ( ( ( ( STRING_0 + ( METHOD_2 ( ) ) ) + STRING_1 ) + ( METHOD_2 ( ) ) ) + STRING_2 ) + ( METHOD_2 ( ) ) ) + STRING_3 ) + ( METHOD_2 ( ) ) ) + STRING_4 ) + ( METHOD_2 ( ) ) ) + STRING_5 ) + ( METHOD_2 ( ) ) ) + STRING_6 ; java . lang . String actual = IDENT_2 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_3 ) { return format ( IDENT_4 , new java . lang . StringBuffer ( ) , new java . text . METHOD_3 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . util . Locale IDENT_0 = java . util . Locale . METHOD_1 ( ) ; java . util . Locale . METHOD_2 ( METHOD_3 ( ) ) ; org . hipparchus . linear . IDENT_1 m = org . hipparchus . linear . IDENT_2 . METHOD_4 ( new double [ ] [ ] { new double [ ] { FLOAT_0 , - FLOAT_1 , FLOAT_2 } } ) ; java . lang . String expected = ( ( ( ( ( STRING_0 + ( METHOD_5 ( ) ) ) + STRING_1 ) + ( METHOD_5 ( ) ) ) + STRING_2 ) + ( METHOD_5 ( ) ) ) + STRING_3 ; java . lang . String actual = new org . hipparchus . linear . METHOD_6 ( ) . format ( m ) ; "<AssertPlaceHolder>" ; java . util . Locale . METHOD_2 ( IDENT_0 ) ; } format ( double ) { if ( d != d ) { return STRING_4 ; } else { return ( ( d >= 0 ? STRING_5 : "" ) + ( java . lang . Double . toString ( d ) ) ) + STRING_6 ; } }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { org . hipparchus . linear . IDENT_0 m = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { Double . IDENT_2 , Double . IDENT_2 , Double . IDENT_2 } } ) ; java . lang . String expected = STRING_0 ; java . lang . String actual = IDENT_3 . format ( m ) ; "<AssertPlaceHolder>" ; } format ( org . hipparchus . geometry . IDENT_4 ) { return format ( IDENT_5 , new java . lang . StringBuffer ( ) , new java . text . METHOD_2 ( 0 ) ) . toString ( ) ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = STRING_0 ; org . hipparchus . linear . IDENT_0 expected = org . hipparchus . linear . IDENT_1 . METHOD_1 ( new double [ ] [ ] { new double [ ] { 1 , 1 , 1 } , new double [ ] { 1 , 1 , 1 } } ) ; org . hipparchus . linear . IDENT_0 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_2 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_3 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_4 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_5 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( ( ( ( ( STRING_0 + ( METHOD_1 ( ) ) ) + STRING_1 ) + ( METHOD_1 ( ) ) ) + STRING_2 ) + ( METHOD_1 ( ) ) ) + STRING_3 ; org . hipparchus . linear . IDENT_0 expected = org . hipparchus . linear . IDENT_1 . METHOD_2 ( new double [ ] [ ] { new double [ ] { FLOAT_0 , FLOAT_1 , FLOAT_2 } } ) ; org . hipparchus . linear . IDENT_0 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( ( ( ( ( STRING_0 + ( METHOD_1 ( ) ) ) + STRING_1 ) + ( METHOD_1 ( ) ) ) + STRING_2 ) + ( METHOD_1 ( ) ) ) + STRING_3 ; org . hipparchus . linear . IDENT_0 expected = org . hipparchus . linear . IDENT_1 . METHOD_2 ( new double [ ] [ ] { new double [ ] { - FLOAT_0 , FLOAT_1 , FLOAT_2 } } ) ; org . hipparchus . linear . IDENT_0 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )
METHOD_0 ( ) { java . lang . String source = ( ( ( ( ( STRING_0 + ( METHOD_1 ( ) ) ) + STRING_1 ) + ( METHOD_1 ( ) ) ) + STRING_2 ) + ( METHOD_1 ( ) ) ) + STRING_3 ; org . hipparchus . linear . IDENT_0 expected = org . hipparchus . linear . IDENT_1 . METHOD_2 ( new double [ ] [ ] { new double [ ] { - FLOAT_0 , - FLOAT_1 , - FLOAT_2 } } ) ; org . hipparchus . linear . IDENT_0 actual = IDENT_2 . parse ( source ) ; "<AssertPlaceHolder>" ; } parse ( java . lang . String ) { java . text . IDENT_3 IDENT_4 = new java . text . METHOD_3 ( 0 ) ; org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 result = parse ( source , IDENT_4 ) ; if ( ( IDENT_4 . METHOD_4 ( ) ) == 0 ) { throw new org . hipparchus . exception . METHOD_5 ( org . hipparchus . exception . IDENT_8 . IDENT_9 , source , IDENT_4 . METHOD_6 ( ) , org . hipparchus . geometry . IDENT_5 . IDENT_6 . IDENT_7 . class ) ; } return result ; }	org . junit . Assert . assertEquals ( expected , actual )

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