Package-level declarations
Core functions and types, available on all supported platforms.
Core functions and types, available on all supported platforms.
Core functions and types, available on all supported platforms.
Core functions and types, available on all supported platforms.
Core functions and types, available on all supported platforms.
Types
Base interface implicitly implemented by all annotation interfaces. See Kotlin language documentation for more information on annotations.
Base interface implicitly implemented by all annotation interfaces. See Kotlin language documentation for more information on annotations.
Represents an array (specifically, a Java array when targeting the JVM platform). Array instances can be created using the arrayOf, arrayOfNulls and emptyArray standard library functions. See Kotlin language documentation for more information on arrays.
Represents an array. Array instances can be created using the constructor, arrayOf, arrayOfNulls and emptyArray standard library functions. See Kotlin language documentation for more information on arrays.
Represents a value which is either true or false. On the JVM, non-nullable values of this type are represented as values of the primitive type boolean.
Represents a value which is either true or false. On the JVM, non-nullable values of this type are represented as values of the primitive type boolean.
An array of booleans. When targeting the JVM, instances of this class are represented as boolean[].
Allows to infer generic type arguments of a function from the calls in the annotated function parameter of that function.
Represents a 8-bit signed integer. On the JVM, non-nullable values of this type are represented as values of the primitive type byte.
Classes which inherit from this interface have a defined total ordering between their instances.
Classes which inherit from this interface have a defined total ordering between their instances.
Provides a comparison function for imposing a total ordering between instances of the type T.
Defines deep recursive function that keeps its stack on the heap, which allows very deep recursive computations that do not use the actual call stack. To initiate a call to this deep recursive function use its invoke function. As a rule of thumb, it should be used if recursion goes deeper than a thousand calls.
A scope class for DeepRecursiveFunction function declaration that defines callRecursive methods to recursively call this function or another DeepRecursiveFunction putting the call activation frame on the heap.
Marks the annotated declaration as deprecated.
Marks the annotated declaration as deprecated.
Marks the annotated declaration as deprecated. In contrast to Deprecated, severity of the reported diagnostic is not a constant value, but differs depending on the API version of the usage (the value of the -api-version argument when compiling the module where the usage is located). If the API version is greater or equal than hiddenSince, the declaration will not be accessible from the code (as if it was deprecated with level DeprecationLevel.HIDDEN), otherwise if the API version is greater or equal than errorSince, the usage will be marked as an error (as with DeprecationLevel.ERROR), otherwise if the API version is greater or equal than warningSince, the usage will be marked as a warning (as with DeprecationLevel.WARNING), otherwise the annotation is ignored.
Marks the annotated declaration as deprecated. In contrast to Deprecated, severity of the reported diagnostic is not a constant value, but differs depending on the API version of the usage (the value of the -api-version argument when compiling the module where the usage is located). If the API version is greater or equal than hiddenSince, the declaration will not be accessible from the code (as if it was deprecated with level DeprecationLevel.HIDDEN), otherwise if the API version is greater or equal than errorSince, the usage will be marked as an error (as with DeprecationLevel.ERROR), otherwise if the API version is greater or equal than warningSince, the usage will be marked as a warning (as with DeprecationLevel.WARNING), otherwise the annotation is ignored.
Possible levels of a deprecation. The level specifies how the deprecated element usages are reported in code.
Possible levels of a deprecation. The level specifies how the deprecated element usages are reported in code.
Represents a double-precision 64-bit IEEE 754 floating point number. On the JVM, non-nullable values of this type are represented as values of the primitive type double.
Represents a double-precision 64-bit IEEE 754 floating point number.
An array of doubles. When targeting the JVM, instances of this class are represented as double[].
When applied to annotation class X specifies that X defines a DSL language
When applied to annotation class X specifies that X defines a DSL language
The common base class of all enum classes. See the Kotlin language documentation for more information on enum classes.
The common base class of all enum classes. See the Kotlin language documentation for more information on enum classes.
Signals that the annotated annotation class is a marker of an experimental API.
The experimental multiplatform support API marker.
This annotation marks the standard library API that is considered experimental and is not subject to the general compatibility guarantees given for the standard library: the behavior of such API may be changed or the API may be removed completely in any further release.
Marks the API that is dependent on the experimental unsigned types, including those types themselves.
Signifies that the annotated functional type represents an extension function.
Signifies that the annotated functional type represents an extension function.
Represents a single-precision 32-bit IEEE 754 floating point number. On the JVM, non-nullable values of this type are represented as values of the primitive type float.
Represents a single-precision 32-bit IEEE 754 floating point number.
An array of floats. When targeting the JVM, instances of this class are represented as float[].
Represents a 32-bit signed integer. On the JVM, non-nullable values of this type are represented as values of the primitive type int.
Represents a version of the Kotlin standard library.
Specifies how a Lazy instance synchronizes initialization among multiple threads.
Represents a 64-bit signed integer. On the JVM, non-nullable values of this type are represented as values of the primitive type long.
This annotation is present on any class file produced by the Kotlin compiler and is read by the compiler and reflection. Parameters have very short JVM names on purpose: these names appear in all generated class files, and we'd like to reduce their size.
Nothing has no instances. You can use Nothing to represent "a value that never exists": for example, if a function has the return type of Nothing, it means that it never returns (always throws an exception).
Nothing has no instances. You can use Nothing to represent "a value that never exists": for example, if a function has the return type of Nothing, it means that it never returns (always throws an exception).
An exception is thrown to indicate that a method body remains to be implemented.
Allows to use the API denoted by the given markers in the annotated file, declaration, or expression. If a declaration is annotated with OptIn, its usages are not required to opt in to that API.
Marks an expected annotation class that it isn't required to have actual counterparts in all platforms.
Enables overload selection based on the type of the value returned from lambda argument.
Annotates type arguments of functional type and holds corresponding parameter name specified by the user in type declaration (if any).
Annotates type arguments of functional type and holds corresponding parameter name specified by the user in type declaration (if any).
When applied to a class or a member with internal visibility allows to use it from public inline functions and makes it effectively public.
When applied to a class or a member with internal visibility allows to use it from public inline functions and makes it effectively public.
Specifies a code fragment that can be used to replace a deprecated function, property or class. Tools such as IDEs can automatically apply the replacements specified through this annotation.
Specifies a code fragment that can be used to replace a deprecated function, property or class. Tools such as IDEs can automatically apply the replacements specified through this annotation.
Signals that the annotated annotation class is a marker of an API that requires an explicit opt-in.
Represents a 16-bit signed integer. On the JVM, non-nullable values of this type are represented as values of the primitive type short.
An array of shorts. When targeting the JVM, instances of this class are represented as short[].
Specifies the first version of Kotlin where a declaration has appeared. Using the declaration and specifying an older API version (via the -api-version command line option) will result in an error.
Specifies the first version of Kotlin where a declaration has appeared. Using the declaration and specifying an older API version (via the -api-version command line option) will result in an error.
The String class represents character strings. All string literals in Kotlin programs, such as "abc", are implemented as instances of this class.
Suppresses the given compilation warnings in the annotated element.
Suppresses the given compilation warnings in the annotated element.
The base class for all errors and exceptions. Only instances of this class can be thrown or caught.
This annotation indicates what exceptions should be declared by a function when compiled to a platform method in Kotlin/JVM and Kotlin/Native.
This annotation indicates what exceptions should be declared by a function when compiled to a JVM method.
Suppresses errors about variance conflict
Suppresses errors about variance conflict
Allows to use experimental API denoted by the given markers in the annotated file, declaration, or expression. If a declaration is annotated with UseExperimental, its usages are not required to opt-in to that experimental API.
Properties
Returns true if this lateinit property has been assigned a value, and false otherwise.
Returns an array of stack trace elements representing the stack trace pertaining to this throwable.
Returns a list of all exceptions that were suppressed in order to deliver this exception.
Returns a list of all exceptions that were suppressed in order to deliver this exception.
Returns a list of all exceptions that were suppressed in order to deliver this exception.
Returns a list of all exceptions that were suppressed in order to deliver this exception.
Functions
When supported by the platform, adds the specified exception to the list of exceptions that were suppressed in order to deliver this exception.
Adds the specified exception to the list of exceptions that were suppressed in order to deliver this exception.
When supported by the platform, adds the specified exception to the list of exceptions that were suppressed in order to deliver this exception.
Adds the specified exception to the list of exceptions that were suppressed in order to deliver this exception.
Performs a bitwise AND operation between the two values.
Returns an array containing the specified elements.
Returns an array of objects of the given type with the given size, initialized with null values.
Throws an AssertionError if the value is false and runtime assertions have been enabled on the JVM using the -ea JVM option.
Throws an AssertionError calculated by lazyMessage if the value is false and runtime assertions have been enabled on the JVM using the -ea JVM option.
Throws an AssertionError if the value is false and runtime assertions have been enabled during compilation.
Throws an AssertionError calculated by lazyMessage if the value is false and runtime assertions have been enabled during compilation.
Returns an array containing the specified boolean values.
Returns an array containing the specified boolean values.
Returns an array containing the specified characters.
Returns an array containing the specified characters.
Throws an IllegalStateException if the value is false.
Throws an IllegalStateException with the result of calling lazyMessage if the value is false.
Throws an IllegalStateException if the value is null. Otherwise returns the not null value.
Throws an IllegalStateException with the result of calling lazyMessage if the value is null. Otherwise returns the not null value.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Byte number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Long number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Short number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this UByte number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this UInt number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this ULong number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this UShort number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Long number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive most significant bits that are zero in the binary representation of this Long number.
Counts the number of set bits in the binary representation of this Byte number.
Counts the number of set bits in the binary representation of this Int number.
Counts the number of set bits in the binary representation of this Long number.
Counts the number of set bits in the binary representation of this Short number.
Counts the number of set bits in the binary representation of this UByte number.
Counts the number of set bits in the binary representation of this UInt number.
Counts the number of set bits in the binary representation of this ULong number.
Counts the number of set bits in the binary representation of this UShort number.
Counts the number of set bits in the binary representation of this Int number.
Counts the number of set bits in the binary representation of this Long number.
Counts the number of set bits in the binary representation of this Int number.
Counts the number of set bits in the binary representation of this Long number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Byte number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Long number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Short number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this UByte number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this UInt number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this ULong number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this UShort number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Long number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Int number.
Counts the number of consecutive least significant bits that are zero in the binary representation of this Long number.
Enables the use of the unary -- operator for BigDecimal instances.
Enables the use of the -- operator for BigInteger instances.
Enables the use of the / operator for BigDecimal instances.
Enables the use of the / operator for BigInteger instances.
Divides this value by the other value, flooring the result to an integer that is closer to negative infinity.
Returns the result of onSuccess for the encapsulated value if this instance represents success or the result of onFailure function for the encapsulated Throwable exception if it is failure.
Returns the Double value corresponding to a given bit representation.
Returns the Float value corresponding to a given bit representation.
Returns the Double value corresponding to a given bit representation.
Returns the Float value corresponding to a given bit representation.
Returns the Double value corresponding to a given bit representation.
Returns the Float value corresponding to a given bit representation.
An extension operator that allows delegating a read-only property of type V to a property reference to a property of type V or its subtype.
An extension operator that allows delegating a read-only member or extension property of type V to a property reference to a member or extension property of type V or its subtype.
Enables the use of the unary ++ operator for BigDecimal instances.
Enables the use of the ++ operator for BigInteger instances.
Inverts the bits including the sign bit in this value.
Returns true if the argument is a finite floating-point value; returns false otherwise (for NaN and infinity arguments).
Returns true if the argument is a finite floating-point value; returns false otherwise (for NaN and infinity arguments).
Returns true if this value is infinitely large in magnitude.
Returns true if this value is infinitely large in magnitude.
Returns true if this value is infinitely large in magnitude.
Returns true if the specified number is a Not-a-Number (NaN) value, false otherwise.
Returns true if the specified number is a Not-a-Number (NaN) value, false otherwise.
Creates a new instance of the Lazy that uses the specified initialization function initializer.
Creates a new instance of the Lazy that uses the specified initialization function initializer.
Creates a new instance of the Lazy that uses the specified initialization function initializer and the default thread-safety mode LazyThreadSafetyMode.SYNCHRONIZED.
Creates a new instance of the Lazy that uses the specified initialization function initializer and thread-safety mode.
Creates a new instance of the Lazy that uses the specified initialization function initializer and the default thread-safety mode LazyThreadSafetyMode.SYNCHRONIZED.
Creates a new instance of the Lazy that uses the specified initialization function initializer and thread-safety mode.
Enables the use of the - operator for BigDecimal instances.
Enables the use of the - operator for BigInteger instances.
Calculates the remainder of flooring division of this value by the other value.
Performs a bitwise OR operation between the two values.
Concatenates this string with the string representation of the given other object. If either the receiver or the other object are null, they are represented as the string "null".
Enables the use of the + operator for BigDecimal instances.
Enables the use of the + operator for BigInteger instances.
Prints the detailed description of this throwable to the standard output or standard error output.
Prints the detailed description of this throwable to console error output.
Prints the detailed description of this throwable to the standard error output.
Prints the detailed description of this throwable to the specified stream.
Prints the detailed description of this throwable to the specified writer.
Prints the detailed description of this throwable to the standard output.
Enables the use of the % operator for BigDecimal instances.
Enables the use of the % operator for BigInteger instances.
Throws an IllegalArgumentException if the value is false.
Throws an IllegalArgumentException with the result of calling lazyMessage if the value is false.
Throws an IllegalArgumentException if the value is null. Otherwise returns the not null value.
Throws an IllegalArgumentException with the result of calling lazyMessage if the value is null. Otherwise returns the not null value.
Rotates the binary representation of this Byte number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Int number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Long number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Short number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this UByte number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this UInt number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this ULong number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this UShort number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Int number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Long number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Int number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Long number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Int number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Long number left by the specified bitCount number of bits. The most significant bits pushed out from the left side reenter the number as the least significant bits on the right side.
Rotates the binary representation of this Byte number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Int number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Long number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Short number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this UByte number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this UInt number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this ULong number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this UShort number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Int number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Long number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Int number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Long number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Int number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
Rotates the binary representation of this Long number right by the specified bitCount number of bits. The least significant bits pushed out from the right side reenter the number as the most significant bits on the left side.
An extension operator that allows delegating a mutable property of type V to a property reference to a mutable property of the same type V.
An extension operator that allows delegating a mutable member or extension property of type V to a property reference to a member or extension mutable property of the same type V.
Shifts this value left by the n number of bits.
Shifts this value right by the n number of bits, filling the leftmost bits with copies of the sign bit.
Returns the detailed description of this throwable with its stack trace.
Returns the detailed description of this throwable with its stack trace.
Returns the detailed description of this throwable with its stack trace.
Returns the detailed description of this throwable with its stack trace.
Returns a number having a single bit set in the position of the most significant set bit of this Byte number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Short number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this UByte number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this UInt number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this ULong number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this UShort number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the most significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Byte number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Short number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this UByte number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this UInt number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this ULong number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this UShort number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Long number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Int number, or zero, if this number is zero.
Returns a number having a single bit set in the position of the least significant set bit of this Long number, or zero, if this number is zero.
Enables the use of the * operator for BigDecimal instances.
Enables the use of the * operator for BigInteger instances.
Returns the value of this BigInteger number as a BigDecimal.
Returns the value of this Double number as a BigDecimal.
Returns the value of this Float number as a BigDecimal.
Returns the value of this Int number as a BigDecimal.
Returns the value of this Long number as a BigDecimal.
Returns the value of this BigInteger number as a BigDecimal scaled according to the specified scale and rounded according to the settings specified with mathContext.
Returns the value of this Int number as a BigInteger.
Returns the value of this Long number as a BigInteger.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Long according to the IEEE 754 floating-point "double format" bit layout, preserving NaN values exact layout.
Returns a bit representation of the specified floating-point value as Int according to the IEEE 754 floating-point "single format" bit layout, preserving NaN values exact layout.
Enables the use of the unary - operator for BigDecimal instances.
Enables the use of the unary - operator for BigInteger instances.
Performs a bitwise XOR operation between the two values.