PosLong
Related Docs:
object PosLong
| package anyvals
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the bitwise AND of this value and x.
Returns the bitwise AND of this value and x.
(0xf0 & 0xaa) == 0xa0 // in binary: 11110000 // & 10101010 // -------- // 10100000
Returns the bitwise AND of this value and x.
Returns the bitwise AND of this value and x.
(0xf0 & 0xaa) == 0xa0 // in binary: 11110000 // & 10101010 // -------- // 10100000
Returns the bitwise AND of this value and x.
Returns the bitwise AND of this value and x.
(0xf0 & 0xaa) == 0xa0 // in binary: 11110000 // & 10101010 // -------- // 10100000
Returns the bitwise AND of this value and x.
Returns the bitwise AND of this value and x.
(0xf0 & 0xaa) == 0xa0 // in binary: 11110000 // & 10101010 // -------- // 10100000
Returns the bitwise AND of this value and x.
Returns the bitwise AND of this value and x.
(0xf0 & 0xaa) == 0xa0 // in binary: 11110000 // & 10101010 // -------- // 10100000
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Converts this PosLong's value to a string then concatenates the given string.
Converts this PosLong's value to a string then concatenates the given string.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns this value bit-shifted left by the specified number of bits, filling in the new right bits with zeroes.
Returns this value bit-shifted left by the specified number of bits, filling in the new right bits with zeroes.
6 << 3 == 48 // in binary: 0110 << 3 == 0110000
Returns this value bit-shifted left by the specified number of bits, filling in the new right bits with zeroes.
Returns this value bit-shifted left by the specified number of bits, filling in the new right bits with zeroes.
6 << 3 == 48 // in binary: 0110 << 3 == 0110000
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns this value bit-shifted left by the specified number of bits, filling in the right bits with the same value as the left-most bit of this.
Returns this value bit-shifted left by the specified number of bits, filling in the right bits with the same value as the left-most bit of this. The effect of this is to retain the sign of the value.
-21 >> 3 == -3 // in binary: 11111111 11111111 11111111 11101011 >> 3 == // 11111111 11111111 11111111 11111101
Returns this value bit-shifted left by the specified number of bits, filling in the right bits with the same value as the left-most bit of this.
Returns this value bit-shifted left by the specified number of bits, filling in the right bits with the same value as the left-most bit of this. The effect of this is to retain the sign of the value.
-21 >> 3 == -3 // in binary: 11111111 11111111 11111111 11101011 >> 3 == // 11111111 11111111 11111111 11111101
Returns this value bit-shifted right by the specified number of bits, filling the new left bits with zeroes.
Returns this value bit-shifted right by the specified number of bits, filling the new left bits with zeroes.
-21 >>> 3 == 536870909 // in binary: 11111111 11111111 11111111 11101011 >>> 3 == // 00011111 11111111 11111111 11111101
21 >>> 3 == 2 // in binary: 010101 >>> 3 == 010
Returns this value bit-shifted right by the specified number of bits, filling the new left bits with zeroes.
Returns this value bit-shifted right by the specified number of bits, filling the new left bits with zeroes.
-21 >>> 3 == 536870909 // in binary: 11111111 11111111 11111111 11101011 >>> 3 == // 00011111 11111111 11111111 11111101
21 >>> 3 == 2 // in binary: 010101 >>> 3 == 010
Returns the bitwise XOR of this value and x.
Returns the bitwise XOR of this value and x.
(0xf0 ^ 0xaa) == 0x5a // in binary: 11110000 // ^ 10101010 // -------- // 01011010
Returns the bitwise XOR of this value and x.
Returns the bitwise XOR of this value and x.
(0xf0 ^ 0xaa) == 0x5a // in binary: 11110000 // ^ 10101010 // -------- // 01011010
Returns the bitwise XOR of this value and x.
Returns the bitwise XOR of this value and x.
(0xf0 ^ 0xaa) == 0x5a // in binary: 11110000 // ^ 10101010 // -------- // 01011010
Returns the bitwise XOR of this value and x.
Returns the bitwise XOR of this value and x.
(0xf0 ^ 0xaa) == 0x5a // in binary: 11110000 // ^ 10101010 // -------- // 01011010
Returns the bitwise XOR of this value and x.
Returns the bitwise XOR of this value and x.
(0xf0 ^ 0xaa) == 0x5a // in binary: 11110000 // ^ 10101010 // -------- // 01011010
Returns this if this > that or that otherwise.
Returns this if this > that or that otherwise.
Returns this if this < that or that otherwise.
Returns this if this < that or that otherwise.
Create an inclusive Range from this PosLong value
to the specified end with the specified step value.
Create an inclusive Range from this PosLong value
to the specified end with the specified step value.
The final bound of the range to make.
The number to increase by for each step of the range.
A scala.collection.immutable.NumericRange.Inclusive[Long] from this up to
and including end.
Create an inclusive Range from this PosLong value
to the specified end with step value 1.
Create an inclusive Range from this PosLong value
to the specified end with step value 1.
The final bound of the range to make.
A scala.collection.immutable.NumericRange.Inclusive[Long] from this up to
and including end.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 2.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 2.
The unsigned long value is this PosLong's underlying Long plus
264 if the underlying Long is negative; otherwise, it is
equal to the underlying Long. This value is converted to a string of
ASCII digits in binary (base 2) with no extra leading
0s. If the unsigned magnitude is zero, it is
represented by a single zero character '0'
('\u0030'); otherwise, the first character of
the representation of the unsigned magnitude will not be the
zero character. The characters '0'
('\u0030') and '1'
('\u0031') are used as binary digits.
the string representation of the unsigned long
value represented by this PosLong's underlying Long in binary (base 2).
Converts this PosLong to a Byte.
Converts this PosLong to a Byte.
Converts this PosLong to a Char.
Converts this PosLong to a Char.
Converts this PosLong to a Double.
Converts this PosLong to a Double.
Converts this PosLong to a Float.
Converts this PosLong to a Float.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 16.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 16.
The unsigned long value is this PosLong's underlying Long plus
264 if the underlying Long is negative; otherwise, it is
equal to the underlying Long. This value is converted to a string of
ASCII digits in hexadecimal (base 16) with no extra
leading 0s. If the unsigned magnitude is zero, it
is represented by a single zero character '0'
('\u0030'); otherwise, the first character of
the representation of the unsigned magnitude will not be the
zero character. The following characters are used as
hexadecimal digits:
0123456789abcdef
These are the characters '\u0030' through
'\u0039' and '\u0061' through
'\u0066'. If uppercase letters are desired,
the toUpperCase method may be called
on the result.
the string representation of the unsigned long
value represented by this PosLong's underlying Long in hexadecimal
(base 16).
Converts this PosLong to an Int.
Converts this PosLong to an Int.
Converts this PosLong to a Long.
Converts this PosLong to a Long.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 8.
Returns a string representation of this PosLong's underlying Long
as an unsigned integer in base 8.
The unsigned long value is this PosLong's underlying Long plus
264 if the underlying Long is negative; otherwise, it is
equal to the underlying Long. This value is converted to a string of
ASCII digits in octal (base 8) with no extra leading
0s.
If the unsigned magnitude is zero, it is represented by a
single zero character '0'
('\u0030'); otherwise, the first character of
the representation of the unsigned magnitude will not be the
zero character. The following characters are used as octal
digits:
01234567
These are the characters '\u0030' through
'\u0037'.
the string representation of the unsigned long
value represented by this PosLong's underlying Long in octal (base 8).
Converts this PosLong to a Short.
Converts this PosLong to a Short.
A string representation of this PosLong.
A string representation of this PosLong.
Returns this value, unmodified.
Returns the negation of this value.
Returns the bitwise negation of this value.
Returns the bitwise negation of this value.
~5 == -6 // in binary: ~00000101 == // 11111010
Create a Range from this PosLong value
until the specified end (exclusive) with the specified step value.
Create a Range from this PosLong value
until the specified end (exclusive) with the specified step value.
The final bound of the range to make.
The number to increase by for each step of the range.
A scala.collection.immutable.NumericRange.Exclusive[Long] from this up to but
not including end.
Create a Range from this PosLong value
until the specified end (exclusive) with step value 1.
Create a Range from this PosLong value
until the specified end (exclusive) with step value 1.
The final bound of the range to make.
A scala.collection.immutable.NumericRange.Exclusive[Long] from this up to but
not including end.
The Long value underlying this PosLong.
The Long value underlying this PosLong.
Returns the bitwise OR of this value and x.
Returns the bitwise OR of this value and x.
(0xf0 | 0xaa) == 0xfa // in binary: 11110000 // | 10101010 // -------- // 11111010
Returns the bitwise OR of this value and x.
Returns the bitwise OR of this value and x.
(0xf0 | 0xaa) == 0xfa // in binary: 11110000 // | 10101010 // -------- // 11111010
Returns the bitwise OR of this value and x.
Returns the bitwise OR of this value and x.
(0xf0 | 0xaa) == 0xfa // in binary: 11110000 // | 10101010 // -------- // 11111010
Returns the bitwise OR of this value and x.
Returns the bitwise OR of this value and x.
(0xf0 | 0xaa) == 0xfa // in binary: 11110000 // | 10101010 // -------- // 11111010
Returns the bitwise OR of this value and x.
Returns the bitwise OR of this value and x.
(0xf0 | 0xaa) == 0xfa // in binary: 11110000 // | 10101010 // -------- // 11111010
An
AnyValfor positiveLongs.Note: a
PosLongmay not equal 0. If you want positive number or 0, use PosZLong.Because
PosLongis anAnyValit will usually be as efficient as anLong, being boxed only when anLongwould have been boxed.The
PosLong.applyfactory method is implemented in terms of a macro that checks literals for validity at compile time. CallingPosLong.applywith a literalLongvalue will either produce a validPosLonginstance at run time or an error at compile time. Here's an example:scala> import anyvals._ import anyvals._ scala> PosLong(1L) res0: org.scalactic.anyvals.PosLong = PosLong(1) scala> PosLong(0L) <console>:14: error: PosLong.apply can only be invoked on a positive (i > 0L) integer literal, like PosLong(42L). PosLong(0L) ^PosLong.applycannot be used if the value being passed is a variable (i.e., not a literal), because the macro cannot determine the validity of variables at compile time (just literals). If you try to pass a variable toPosLong.apply, you'll get a compiler error that suggests you use a different factor method,PosLong.from, instead:scala> val x = 1L x: Long = 1 scala> PosLong(x) <console>:15: error: PosLong.apply can only be invoked on an integer literal, like PosLong(42L). Please use PosLong.from instead. PosLong(x) ^The
PosLong.fromfactory method will inspect the value at runtime and return anOption[PosLong]. If the value is valid,PosLong.fromwill return aSome[PosLong], else it will return aNone. Here's an example:The
PosLong.applyfactory method is marked implicit, so that you can pass literalLongs into methods that requirePosLong, and get the same compile-time checking you get when callingPosLong.applyexplicitly. Here's an example:scala> def invert(pos: PosLong): Long = Long.MaxValue - pos invert: (pos: org.scalactic.anyvals.PosLong)Long scala> invert(1L) res5: Long = 9223372036854775806 scala> invert(Long.MaxValue) res6: Long = 0 scala> invert(0L) <console>:15: error: PosLong.apply can only be invoked on a positive (i > 0L) integer literal, like PosLong(42L). invert(0L) ^ scala> invert(-1L) <console>:15: error: PosLong.apply can only be invoked on a positive (i > 0L) integer literal, like PosLong(42L). invert(-1L) ^This example also demonstrates that the
PosLongcompanion object also defines implicit widening conversions when either no loss of precision will occur or a similar conversion is provided in Scala. (For example, the implicit conversion fromLongto Double in Scala can lose precision.) This makes it convenient to use aPosLongwhere aLongor wider type is needed. An example is the subtraction in the body of theinvertmethod defined above,Long.MaxValue - pos. AlthoughLong.MaxValueis aLong, which has no-method that takes aPosLong(the type ofpos), you can still subtractpos, because thePosLongwill be implicitly widened toLong.