role Buf[::T = uint8] does Blob[T] is repr('VMArray') is array_type(T){ ... }
A Buf
does the role of a mutable sequence of (usually unsigned) integers.
my $bú = Buf.new(1, 2, 3); $bú[1] = 42; say $bú.raku; # OUTPUT: «Buf.new(1,42,3)»
However, it's a parameterized type, and you can instantiate with several integer types:
my $bú = Buf[int32].new(3, -3, 0xff32, -44); say $bú; # OUTPUT: «Buf[int32]:0x<03 -3 FF32 -2C>»
By default, Buf
uses 8-bit unsigned integers, that is, it is equivalent to Buf[uint8]. Some other types of Buf
s which are used often get their own class name.
buf8 | Buf[uint8] |
buf16 | Buf[uint16] |
buf32 | Buf[uint32] |
buf64 | Buf[uint64] |
You can use these the same way you would with Buf
:
my $bú = buf8.new(3, 6, 254); say $bú; # OUTPUT: «Buf[uint8]:0x<03 06 fe>»
There are some methods on other objects, e.g. encode
that might return a buf8
in some cases where it is the best representation for a particular encoding.
Methods§
method subbuf-rw§
method subbuf-rw($from = 0, $elems = self.elems - $from) is rw
A mutable version of subbuf
that returns a Proxy
functioning as a writable reference to a part of a buffer. Its first argument, $from
specifies the index in the buffer from which a substitution should occur, and its last argument, $elems
specifies how many elements are to be replaced.
For example, to replace one element at index 3 with two elements, 100
and 101
:
my Buf $bú .= new(0..5); $bú.subbuf-rw(3,1) = Buf.new(100, 101); say $bú.raku; # OUTPUT: «Buf.new(0,1,2,100,101,4,5)»
In the case the $elems
argument is not specified, the substitution happens at the specified index $from
removing all trailing elements:
my Buf $bú .= new(0..5); $bú.subbuf-rw(3) = Buf.new(200); say $bú.raku; # OUTPUT: «Buf.new(0,1,2,200)»
In the case the $from
argument is not specified, the substitution happens from the very beginning of the buffer:
my Buf $bú .= new(0..5); $bú.subbuf-rw = Buf.new(123, 123); say $bú.raku; # OUTPUT: «Buf.new(123, 123)»
routine subbuf-rw§
multi subbuf-rw(Buf:D \b) is rw multi subbuf-rw(Buf:D \b, Int() $from) is rw multi subbuf-rw(Buf:D \b, $from, $elems) is rw
Returns a writable reference to a part of a buffer. Invokes the subbuf-rw
method on the specified Buf
:
my Buf $bú .= new(1,2,3); subbuf-rw($bú,2,1) = Buf.new(42); say $bú.raku; # OUTPUT: «Buf.new(1,2,42)»
method reallocate§
method reallocate(Buf:D: Int:D $elems)
Change the number of elements of the Buf
, returning the changed Buf
. The size of Buf
will be adapted depending on the number of $elems
specified: if it is smaller than the actual size of the Buf
the resulting Buf
will be shrunk down, otherwise it will be enlarged to fit the number of $elems
. In the case the Buf
is enlarged, newly created items will be assigned a Virtual Machine specific null value, therefore you should not rely upon their value since it could be inconsistent across different virtual machines.
my Buf $bú .= new(^10); $bú.reallocate(5); say $bú.raku; # OUTPUT: «Buf.new(0,1,2,3,4)» $bú = Buf.new( 1..3 ); $bú.reallocate( 10 ); say $bú.raku; # OUTPUT: «Buf.new(1,2,3,0,0,0,0,0,0,0)»
method list§
multi method list(Buf:D:)
Returns a List
of integers.
say Buf.new(122,105,112,205).list; # OUTPUT: «(122 105 112 205)»
method push§
method push( $elems )
Adds elements at the end of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); $bú.push( 8 ); say $bú.raku; # OUTPUT: «Buf.new(1,1,2,3,5,8)»
method pop§
method pop()
Returns and removes the last element of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); say $bú.pop(); # OUTPUT: «5» say $bú.raku; # OUTPUT: «Buf.new(1,1,2,3)»
method append§
method append( $elems )
Appends to the end of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); $bú.append(9, 8, 7, 6); say $bú.raku; # OUTPUT: «Buf.new(1,1,2,3,5,9,8,7,6)»
method prepend§
method prepend( $elems )
Inserts elements at the beginning of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); $bú.prepend( 0 ); say $bú.raku; # OUTPUT: «Buf.new(0,1,1,2,3,5)»
The difference from method unshift
is that if you prepend a single array or list argument, prepend
will flatten that array / list, whereas unshift
prepends the list / array as just a single element.
method shift§
method shift()
Removes and returns the first element of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); say $bú.shift(); # OUTPUT: «1» say $bú.raku; # OUTPUT: «Buf.new(1,2,3,5)»
method unshift§
method unshift()
Inserts elements at the beginning of the buffer.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); $bú.unshift( 0 ); say $bú.raku; # OUTPUT: «Buf.new(0,1,1,2,3,5)»
method splice§
method splice( Buf:D: $start = 0, $elems?, *@replacement --> Buf)
Substitutes elements of the buffer by other elements, returning a buffer with the removed elements.
my $bú = Buf.new( 1, 1, 2, 3, 5 ); say $bú.splice: 0, 3, <3 2 1>; # OUTPUT: «Buf:0x<01 01 02>» say $bú.raku; # OUTPUT: «Buf.new(3,2,1,3,5)»
Methods on buf8 only (6.d, 2018.12 and later)§
These methods are available on the buf8
type only. They allow low level access to writing bytes to the underlying data and in different ways with regards to type (integer or floating point (num)), size (8, 16, 32, 64 or 128 bits), signed or unsigned (for integer values) and endianness (native, little and big endianness). These methods always return Nil
.
Endianness must be indicated by using values of the Endian
enum as the third parameter to these methods. If no endianness is specified, NativeEndian
will be assumed. Other values are LittleEndian
and BigEndian
.
The buffer will be automatically resized to support any bytes being written if it is not large enough yet.
method write-uint8§
method write-uint8(buf8:D: uint $pos, uint8 $value, $endian = NativeEndian --> Nil)
Writes an unsigned 8-bit integer value at the given position. The $endian
parameter has no meaning, but is available for consistency.
method write-int8§
method write-int8(buf8:D: uint $pos, int8 $value, $endian = NativeEndian --> Nil)
Writes a signed 8-bit integer value at the given position. The $endian
parameter has no meaning, but is available for consistency.
method write-uint16§
method write-uint16(buf8:D: uint $pos, uint16 $value, $endian = NativeEndian --> Nil)
Writes an unsigned 16-bit integer value at the given position with the given endianness.
method write-int16§
method write-int16(buf8:D: uint $pos, int16 $value, $endian = NativeEndian --> Nil)
Writes a signed 16-bit integer value at the given position with the given endianness.
method write-uint32§
method write-uint32(buf8:D: uint $pos, uint32 $value, $endian = NativeEndian --> Nil)
Writes an unsigned 32-bit integer value at the given position with the given endianness.
method write-int32§
method write-int32(buf8:D: uint $pos, int32 $value, $endian = NativeEndian --> Nil)
Writes a signed 32-bit integer value at the given position with the given endianness.
method write-uint64§
method write-uint64(buf8:D: uint $pos, uint64 $value, $endian = NativeEndian --> Nil)
Writes an unsigned 64-bit integer value at the given position with the given endianness.
method write-int64§
method write-int64(buf8:D: uint $pos, Int:D $value, $endian = NativeEndian --> Nil)
Writes a signed 64-bit integer value at the given position with the given endianness.
method write-uint128§
method write-uint128(buf8:D: uint $pos, UInt:D $value, $endian = NativeEndian --> Nil)
Writes an unsigned 128-bit integer value at the given position with the given endianness.
method write-int128§
method write-int128(buf8:D: uint $pos, Int:D $value, $endian = NativeEndian --> Nil)
Writes a signed 128-bit integer value at the given position with the given endianness.
method write-num32§
method write-num32(buf8:D: uint $pos, num32 $value, $endian = NativeEndian --> Nil)
Writes a native num32
IEEE floating point value at the given position with the given endianness.
method write-num64§
method write-num64(buf8:D: uint $pos, num64 $value, $endian = NativeEndian --> Nil)
Writes a native num64
IEEE floating point value at the given position with the given endianness.
Methods on buf8 only (6.d, 2019.03 and later)§
method write-ubits§
method write-ubits(buf8:D: uint $pos, uint $bits, UInt:D $value --> Nil)
Writes an unsigned integer value to the bits from the given bit offset and given number of bits. The endianness of the bits is assumed to be BigEndian
. Always returns Nil.
method write-bits§
method write-bits(buf8:D: uint $pos, uint $bits, Int:D $value --> Nil)
Writes a signed integer value for the bits from the given bit offset and given number of bits. The endianness of the bits is assumed to be BigEndian
. Always returns Nil.
Methods on buf8 only (6.d, 2019.10 and later)§
These methods are available on the buf8
type only. They allow low level access to writing bytes to the underlying data and in different ways with regards to type (integer or floating point (num)), size (8, 16, 32, 64 or 128 bits), signed or unsigned (for integer values) and endianness (native, little and big endianness).
These methods can also be called on the buf8
type object, in which case a new buf8
object will be returned. Otherwise, the invocant will be returned to allow for easier chaining of operations on the buf8
object. The buffer will be automatically resized to support any bytes being written if it is not large enough yet.
Endianness must be indicated by using values of the Endian
enum as the third parameter to these methods. If no endianness is specified, NativeEndian
will be assumed. Other values are LittleEndian
and BigEndian
.
method write-uint8§
method write-uint8(buf8: uint $pos, uint8 $value, $endian = NativeEndian --> buf8:D)
Writes an unsigned 8-bit integer value at the given position. The $endian
parameter has no meaning, but is available for consistency.
method write-int8§
method write-int8(buf8: uint $pos, int8 $value, $endian = NativeEndian --> buf8:D)
Writes a signed 8-bit integer value at the given position. The $endian
parameter has no meaning, but is available for consistency.
method write-uint16§
method write-uint16(buf8: uint $pos, uint16 $value, $endian = NativeEndian --> buf8:D)
Writes an unsigned 16-bit integer value at the given position with the given endianness.
method write-int16§
method write-int16(buf8: uint $pos, int16 $value, $endian = NativeEndian --> buf8:D)
Writes a signed 16-bit integer value at the given position with the given endianness.
method write-uint32§
method write-uint32(buf8: uint $pos, uint32 $value, $endian = NativeEndian --> buf8:D)
Writes an unsigned 32-bit integer value at the given position with the given endianness.
method write-int32§
method write-int32(buf8: uint $pos, int32 $value, $endian = NativeEndian --> buf8:D)
Writes a signed 32-bit integer value at the given position with the given endianness.
method write-uint64§
method write-uint64(buf8: uint $pos, uint64 $value, $endian = NativeEndian --> buf8:D)
Writes an unsigned 64-bit integer value at the given position with the given endianness.
method write-int64§
method write-int64(buf8: uint $pos, Int:D $value, $endian = NativeEndian --> buf8:D)
Writes a signed 64-bit integer value at the given position with the given endianness.
method write-uint128§
method write-uint128(buf8: uint $pos, UInt:D $value, $endian = NativeEndian --> buf8:D)
Writes an unsigned 128-bit integer value at the given position with the given endianness.
method write-int128§
method write-int128(buf8: uint $pos, Int:D $value, $endian = NativeEndian --> buf8:D)
Writes a signed 128-bit integer value at the given position with the given endianness.
method write-num32§
method write-num32(buf8: uint $pos, num32 $value, $endian = NativeEndian --> buf8:D)
Writes a native num32
IEEE floating point value at the given position with the given endianness.
method write-num64§
method write-num64(buf8: uint $pos, num64 $value, $endian = NativeEndian --> buf8:D)
Writes a native num64
IEEE floating point value at the given position with the given endianness.
method write-ubits§
method write-ubits(buf8: uint $pos, uint $bits, UInt:D $value --> buf8:D)
Writes an unsigned integer value to the bits from the given bit offset and given number of bits. The endianness of the bits is assumed to be BigEndian
.
method write-bits§
method write-bits(buf8: uint $pos, uint $bits, Int:D $value --> buf8:D)
Writes a signed integer value for the bits from the given bit offset and given number of bits. The endianness of the bits is assumed to be BigEndian
.
method Blob§
method Buf(Buf:D: --> Blob:D)
Available as of the 2021.06 Rakudo compiler release.
Coerces the invocant into an immutable Blob
object.