Test two objects for inequality.
Test two objects for inequality.
true
if !(this == that), false otherwise.
Equivalent to x.hashCode
except for boxed numeric types.
Equivalent to x.hashCode
except for boxed numeric types.
For numerics, it returns a hash value which is consistent
with value equality: if two value type instances compare
as true, then ## will produce the same hash value for each
of them.
a hash value consistent with ==
Test two objects for equality.
Test two objects for equality.
true
if the receiver object is equivalent to the argument; false
otherwise.
************************************************* Symbol table attribute format: Symtab = nentries_Nat {Entry} Entry = 1 TERMNAME len_Nat NameInfo | 2 TYPENAME len_Nat NameInfo | 3 NONEsym len_Nat | 4 TYPEsym len_Nat SymbolInfo | 5 ALIASsym len_Nat SymbolInfo | 6 CLASSsym len_Nat SymbolInfo [thistype_Ref] | 7 MODULEsym len_Nat SymbolInfo | 8 VALsym len_Nat [defaultGetter_Ref /* no longer needed*/ SymbolInfo [alias_Ref] | 9 EXTref len_Nat name_Ref [owner_Ref] | 10 EXTMODCLASSref len_Nat name_Ref [owner_Ref] | 11 NOtpe len_Nat | 12 NOPREFIXtpe len_Nat | 13 THIStpe len_Nat sym_Ref | 14 SINGLEtpe len_Nat type_Ref sym_Ref | 15 CONSTANTtpe len_Nat constant_Ref | 16 TYPEREFtpe len_Nat type_Ref sym_Ref {targ_Ref} | 17 TYPEBOUNDStpe len_Nat tpe_Ref tpe_Ref | 18 REFINEDtpe len_Nat classsym_Ref {tpe_Ref} | 19 CLASSINFOtpe len_Nat classsym_Ref {tpe_Ref} | 20 METHODtpe len_Nat tpe_Ref {sym_Ref} | 21 POLYTtpe len_Nat tpe_Ref {sym_Ref} | 22 IMPLICITMETHODtpe len_Nat tpe_Ref {sym_Ref} /* no longer needed */ * | 52 SUPERtpe len_Nat tpe_Ref tpe_Ref | 24 LITERALunit len_Nat | 25 LITERALboolean len_Nat value_Long | 26 LITERALbyte len_Nat value_Long | 27 LITERALshort len_Nat value_Long | 28 LITERALchar len_Nat value_Long | 29 LITERALint len_Nat value_Long | 30 LITERALlong len_Nat value_Long | 31 LITERALfloat len_Nat value_Long | 32 LITERALdouble len_Nat value_Long | 33 LITERALstring len_Nat name_Ref | 34 LITERALnull len_Nat | 35 LITERALclass len_Nat tpe_Ref | 36 LITERALenum len_Nat sym_Ref | 40 SYMANNOT len_Nat sym_Ref AnnotInfoBody | 41 CHILDREN len_Nat sym_Ref {sym_Ref} | 42 ANNOTATEDtpe len_Nat [sym_Ref /* no longer needed */ tpe_Ref {annotinfo_Ref} | 43 ANNOTINFO len_Nat AnnotInfoBody | 44 ANNOTARGARRAY len_Nat {constAnnotArg_Ref} | 47 DEBRUIJNINDEXtpe len_Nat level_Nat index_Nat | 48 EXISTENTIALtpe len_Nat type_Ref {symbol_Ref} | 49 TREE len_Nat 1 EMPTYtree | 49 TREE len_Nat 2 PACKAGEtree type_Ref sym_Ref mods_Ref name_Ref {tree_Ref} | 49 TREE len_Nat 3 CLASStree type_Ref sym_Ref mods_Ref name_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 4 MODULEtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref | 49 TREE len_Nat 5 VALDEFtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref tree_Ref | 49 TREE len_Nat 6 DEFDEFtree type_Ref sym_Ref mods_Ref name_Ref numtparams_Nat {tree_Ref} numparamss_Nat {numparams_Nat {tree_Ref}} tree_Ref tree_Ref | 49 TREE len_Nat 7 TYPEDEFtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 8 LABELtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 9 IMPORTtree type_Ref sym_Ref tree_Ref {name_Ref name_Ref} | 49 TREE len_Nat 11 DOCDEFtree type_Ref sym_Ref string_Ref tree_Ref | 49 TREE len_Nat 12 TEMPLATEtree type_Ref sym_Ref numparents_Nat {tree_Ref} tree_Ref {tree_Ref} | 49 TREE len_Nat 13 BLOCKtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 14 CASEtree type_Ref tree_Ref tree_Ref tree_Ref | 49 TREE len_Nat 15 SEQUENCEtree type_Ref {tree_Ref} | 49 TREE len_Nat 16 ALTERNATIVEtree type_Ref {tree_Ref} | 49 TREE len_Nat 17 STARtree type_Ref {tree_Ref} | 49 TREE len_Nat 18 BINDtree type_Ref sym_Ref name_Ref tree_Ref | 49 TREE len_Nat 19 UNAPPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 20 ARRAYVALUEtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 21 FUNCTIONtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 22 ASSIGNtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 23 IFtree type_Ref tree_Ref tree_Ref tree_Ref | 49 TREE len_Nat 24 MATCHtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 25 RETURNtree type_Ref sym_Ref tree_Ref | 49 TREE len_Nat 26 TREtree type_Ref tree_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 27 THROWtree type_Ref tree_Ref | 49 TREE len_Nat 28 NEWtree type_Ref tree_Ref | 49 TREE len_Nat 29 TYPEDtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 30 TYPEAPPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 31 APPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 32 APPLYDYNAMICtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 33 SUPERtree type_Ref sym_Ref tree_Ref name_Ref | 49 TREE len_Nat 34 THIStree type_Ref sym_Ref name_Ref | 49 TREE len_Nat 35 SELECTtree type_Ref sym_Ref tree_Ref name_Ref | 49 TREE len_Nat 36 IDENTtree type_Ref sym_Ref name_Ref | 49 TREE len_Nat 37 LITERALtree type_Ref constant_Ref | 49 TREE len_Nat 38 TYPEtree type_Ref | 49 TREE len_Nat 39 ANNOTATEDtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 40 SINGLETONTYPEtree type_Ref tree_Ref | 49 TREE len_Nat 41 SELECTFROMTYPEtree type_Ref tree_Ref name_Ref | 49 TREE len_Nat 42 COMPOUNDTYPEtree type_Ref tree_Ref | 49 TREE len_Nat 43 APPLIEDTYPEtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 44 TYPEBOUNDStree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 45 EXISTENTIALTYPEtree type_Ref tree_Ref {tree_Ref} | 50 MODIFIERS len_Nat flags_Long privateWithin_Ref SymbolInfo = name_Ref owner_Ref flags_LongNat [privateWithin_Ref] info_Ref NameInfo = <character sequence of length len_Nat in Utf8 format> NumInfo = <len_Nat-byte signed number in big endian format> Ref = Nat AnnotInfoBody = info_Ref {annotArg_Ref} {name_Ref constAnnotArg_Ref} AnnotArg = Tree | Constant ConstAnnotArg = Constant | AnnotInfo | AnnotArgArray
************************************************* Symbol table attribute format: Symtab = nentries_Nat {Entry} Entry = 1 TERMNAME len_Nat NameInfo | 2 TYPENAME len_Nat NameInfo | 3 NONEsym len_Nat | 4 TYPEsym len_Nat SymbolInfo | 5 ALIASsym len_Nat SymbolInfo | 6 CLASSsym len_Nat SymbolInfo [thistype_Ref] | 7 MODULEsym len_Nat SymbolInfo | 8 VALsym len_Nat [defaultGetter_Ref /* no longer needed*/ SymbolInfo [alias_Ref] | 9 EXTref len_Nat name_Ref [owner_Ref] | 10 EXTMODCLASSref len_Nat name_Ref [owner_Ref] | 11 NOtpe len_Nat | 12 NOPREFIXtpe len_Nat | 13 THIStpe len_Nat sym_Ref | 14 SINGLEtpe len_Nat type_Ref sym_Ref | 15 CONSTANTtpe len_Nat constant_Ref | 16 TYPEREFtpe len_Nat type_Ref sym_Ref {targ_Ref} | 17 TYPEBOUNDStpe len_Nat tpe_Ref tpe_Ref | 18 REFINEDtpe len_Nat classsym_Ref {tpe_Ref} | 19 CLASSINFOtpe len_Nat classsym_Ref {tpe_Ref} | 20 METHODtpe len_Nat tpe_Ref {sym_Ref} | 21 POLYTtpe len_Nat tpe_Ref {sym_Ref} | 22 IMPLICITMETHODtpe len_Nat tpe_Ref {sym_Ref} /* no longer needed */ * | 52 SUPERtpe len_Nat tpe_Ref tpe_Ref | 24 LITERALunit len_Nat | 25 LITERALboolean len_Nat value_Long | 26 LITERALbyte len_Nat value_Long | 27 LITERALshort len_Nat value_Long | 28 LITERALchar len_Nat value_Long | 29 LITERALint len_Nat value_Long | 30 LITERALlong len_Nat value_Long | 31 LITERALfloat len_Nat value_Long | 32 LITERALdouble len_Nat value_Long | 33 LITERALstring len_Nat name_Ref | 34 LITERALnull len_Nat | 35 LITERALclass len_Nat tpe_Ref | 36 LITERALenum len_Nat sym_Ref | 40 SYMANNOT len_Nat sym_Ref AnnotInfoBody | 41 CHILDREN len_Nat sym_Ref {sym_Ref} | 42 ANNOTATEDtpe len_Nat [sym_Ref /* no longer needed */ tpe_Ref {annotinfo_Ref} | 43 ANNOTINFO len_Nat AnnotInfoBody | 44 ANNOTARGARRAY len_Nat {constAnnotArg_Ref} | 47 DEBRUIJNINDEXtpe len_Nat level_Nat index_Nat | 48 EXISTENTIALtpe len_Nat type_Ref {symbol_Ref} | 49 TREE len_Nat 1 EMPTYtree | 49 TREE len_Nat 2 PACKAGEtree type_Ref sym_Ref mods_Ref name_Ref {tree_Ref} | 49 TREE len_Nat 3 CLASStree type_Ref sym_Ref mods_Ref name_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 4 MODULEtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref | 49 TREE len_Nat 5 VALDEFtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref tree_Ref | 49 TREE len_Nat 6 DEFDEFtree type_Ref sym_Ref mods_Ref name_Ref numtparams_Nat {tree_Ref} numparamss_Nat {numparams_Nat {tree_Ref}} tree_Ref tree_Ref | 49 TREE len_Nat 7 TYPEDEFtree type_Ref sym_Ref mods_Ref name_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 8 LABELtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 9 IMPORTtree type_Ref sym_Ref tree_Ref {name_Ref name_Ref} | 49 TREE len_Nat 11 DOCDEFtree type_Ref sym_Ref string_Ref tree_Ref | 49 TREE len_Nat 12 TEMPLATEtree type_Ref sym_Ref numparents_Nat {tree_Ref} tree_Ref {tree_Ref} | 49 TREE len_Nat 13 BLOCKtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 14 CASEtree type_Ref tree_Ref tree_Ref tree_Ref | 49 TREE len_Nat 15 SEQUENCEtree type_Ref {tree_Ref} | 49 TREE len_Nat 16 ALTERNATIVEtree type_Ref {tree_Ref} | 49 TREE len_Nat 17 STARtree type_Ref {tree_Ref} | 49 TREE len_Nat 18 BINDtree type_Ref sym_Ref name_Ref tree_Ref | 49 TREE len_Nat 19 UNAPPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 20 ARRAYVALUEtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 21 FUNCTIONtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 22 ASSIGNtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 23 IFtree type_Ref tree_Ref tree_Ref tree_Ref | 49 TREE len_Nat 24 MATCHtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 25 RETURNtree type_Ref sym_Ref tree_Ref | 49 TREE len_Nat 26 TREtree type_Ref tree_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 27 THROWtree type_Ref tree_Ref | 49 TREE len_Nat 28 NEWtree type_Ref tree_Ref | 49 TREE len_Nat 29 TYPEDtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 30 TYPEAPPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 31 APPLYtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 32 APPLYDYNAMICtree type_Ref sym_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 33 SUPERtree type_Ref sym_Ref tree_Ref name_Ref | 49 TREE len_Nat 34 THIStree type_Ref sym_Ref name_Ref | 49 TREE len_Nat 35 SELECTtree type_Ref sym_Ref tree_Ref name_Ref | 49 TREE len_Nat 36 IDENTtree type_Ref sym_Ref name_Ref | 49 TREE len_Nat 37 LITERALtree type_Ref constant_Ref | 49 TREE len_Nat 38 TYPEtree type_Ref | 49 TREE len_Nat 39 ANNOTATEDtree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 40 SINGLETONTYPEtree type_Ref tree_Ref | 49 TREE len_Nat 41 SELECTFROMTYPEtree type_Ref tree_Ref name_Ref | 49 TREE len_Nat 42 COMPOUNDTYPEtree type_Ref tree_Ref | 49 TREE len_Nat 43 APPLIEDTYPEtree type_Ref tree_Ref {tree_Ref} | 49 TREE len_Nat 44 TYPEBOUNDStree type_Ref tree_Ref tree_Ref | 49 TREE len_Nat 45 EXISTENTIALTYPEtree type_Ref tree_Ref {tree_Ref} | 50 MODIFIERS len_Nat flags_Long privateWithin_Ref SymbolInfo = name_Ref owner_Ref flags_LongNat [privateWithin_Ref] info_Ref NameInfo = <character sequence of length len_Nat in Utf8 format> NumInfo = <len_Nat-byte signed number in big endian format> Ref = Nat AnnotInfoBody = info_Ref {annotArg_Ref} {name_Ref constAnnotArg_Ref} AnnotArg = Tree | Constant ConstAnnotArg = Constant | AnnotInfo | AnnotArgArray
len is remaining length after len'.
Cast the receiver object to be of type T0
.
Cast the receiver object to be of type T0
.
Note that the success of a cast at runtime is modulo Scala's erasure semantics.
Therefore the expression 1.asInstanceOf[String]
will throw a ClassCastException
at
runtime, while the expression List(1).asInstanceOf[List[String]]
will not.
In the latter example, because the type argument is erased as part of compilation it is
not possible to check whether the contents of the list are of the requested type.
the receiver object.
Create a copy of the receiver object.
Tests whether the argument (arg0
) is a reference to the receiver object (this
).
Tests whether the argument (arg0
) is a reference to the receiver object (this
).
The eq
method implements an equivalence relation on
non-null instances of AnyRef
, and has three additional properties:
x
and y
of type AnyRef
, multiple invocations of
x.eq(y)
consistently returns true
or consistently returns false
.x
of type AnyRef
, x.eq(null)
and null.eq(x)
returns false
.null.eq(null)
returns true
. When overriding the equals
or hashCode
methods, it is important to ensure that their behavior is
consistent with reference equality. Therefore, if two objects are references to each other (o1 eq o2
), they
should be equal to each other (o1 == o2
) and they should hash to the same value (o1.hashCode == o2.hashCode
).
true
if the argument is a reference to the receiver object; false
otherwise.
The equality method for reference types.
Called by the garbage collector on the receiver object when there are no more references to the object.
Called by the garbage collector on the receiver object when there are no more references to the object.
The details of when and if the finalize
method is invoked, as
well as the interaction between finalize
and non-local returns
and exceptions, are all platform dependent.
A representation that corresponds to the dynamic class of the receiver object.
A representation that corresponds to the dynamic class of the receiver object.
The nature of the representation is platform dependent.
a representation that corresponds to the dynamic class of the receiver object.
The hashCode method for reference types.
Test whether the dynamic type of the receiver object is T0
.
Test whether the dynamic type of the receiver object is T0
.
Note that the result of the test is modulo Scala's erasure semantics.
Therefore the expression 1.isInstanceOf[String]
will return false
, while the
expression List(1).isInstanceOf[List[String]]
will return true
.
In the latter example, because the type argument is erased as part of compilation it is
not possible to check whether the contents of the list are of the specified type.
true
if the receiver object is an instance of erasure of type T0
; false
otherwise.
Equivalent to !(this eq that)
.
Equivalent to !(this eq that)
.
true
if the argument is not a reference to the receiver object; false
otherwise.
Wakes up a single thread that is waiting on the receiver object's monitor.
Wakes up a single thread that is waiting on the receiver object's monitor.
Wakes up all threads that are waiting on the receiver object's monitor.
Wakes up all threads that are waiting on the receiver object's monitor.
Creates a String representation of this object.
Creates a String representation of this object. The default representation is platform dependent. On the java platform it is the concatenation of the class name, "@", and the object's hashcode in hexadecimal.
a String representation of the object.
This object provides constants for pickling attributes.
If you extend the format, be sure to increase the version minor number.
1.0