struct Slice(T)
Overview
A Slice
is a Pointer
with an associated size.
While a pointer is unsafe because no bound checks are performed when reading from and writing to it,
reading from and writing to a slice involve bound checks.
In this way, a slice is a safe alternative to Pointer
.
A Slice can be created as read-only: trying to write to it
will raise. For example the slice of bytes returned by
String#to_slice
is read-only.
Included Modules
Defined in:
slice.crClass Method Summary
-
.empty
Creates an empty slice.
-
.new(pointer : Pointer(T), size : Int, *, read_only = false)
Creates a slice to the given pointer, bounded by the given size.
-
.new(size : Int, value : T, *, read_only = false)
Allocates
size * sizeof(T)
bytes of heap memory initialized to value and returns a slice pointing to that memory. -
.new(size : Int, *, read_only = false)
Allocates
size * sizeof(T)
bytes of heap memory initialized to zero and returns a slice pointing to that memory. -
.new(size : Int, *, read_only = false, &block)
Allocates
size * sizeof(T)
bytes of heap memory initialized to the value returned by the block (which is invoked once with each index in the range0...size
) and returns a slice pointing to that memory.
Instance Method Summary
-
#+(offset : Int)
Returns a new slice that is offset elements apart from this slice.
- #==(other : self)
-
#[](start, count)
Returns a new slice that starts at start elements from this slice's start, and of count size.
-
#[]=(index : Int, value : T)
Sets the given value at the given index.
- #bytesize
-
#clone
Returns a copy of this slice.
-
#copy_from(source : self)
Copies the contents of source into this slice.
- #copy_from(source : Pointer(T), count)
- #copy_to(target : Pointer(T), count)
-
#copy_to(target : self)
Copies the contents of this slice into target.
- #hexdump
- #hexstring
- #inspect(io)
-
#move_from(source : self)
Moves the contents of source into this slice.
- #move_from(source : Pointer(T), count)
- #move_to(target : Pointer(T), count)
-
#move_to(target : self)
Moves the contents of this slice into target.
- #pointer(size)
- #pretty_print(pp) : Nil
-
#read_only? : Bool
Returns
true
if this slice cannot be written to. -
#reverse!
Reverses in-place all the elements of
self
. - #shuffle!(random = Random::DEFAULT)
-
#size : Int32
Returns the size of this slice.
- #to_a
- #to_s(io)
- #to_slice
-
#to_unsafe : Pointer(T)
Returns this slice's pointer.
- #unsafe_at(index : Int)
Macro Summary
-
[](*args, read_only = false)
Create a new
Slice
with the given args.
Instance methods inherited from module Indexable(T)
[](index : Int)
[],
[]?(index : Int)
[]?,
at(index : Int, &block)at(index : Int) at, bsearch(&block) bsearch, bsearch_index(&block) bsearch_index, each(&block)
each each, each_index(&block) : Nil
each_index each_index, empty? empty?, equals?(other : Indexable, &block)
equals?(other, &block) equals?, first(&block)
first first, first? first?, hash hash, index(object, offset : Int = 0)
index(offset : Int = 0, &block) index, last
last(&block) last, last? last?, reverse_each(&block) : Nil
reverse_each reverse_each, rindex(offset = size - 1, &block)
rindex(value, offset = size - 1) rindex, sample(random = Random::DEFAULT) sample, size size, unsafe_at(index : Int) unsafe_at, values_at(*indexes : Int) values_at, zip(other : Indexable, &block)
zip(other : Indexable(U)) forall U zip, zip?(other : Indexable, &block)
zip?(other : Indexable(U)) forall U zip?
Instance methods inherited from module Enumerable(T)
all?(&block)all? all?, any?(&block)
any? any?, chunks(&block : T -> U) forall U chunks, compact_map(&block) compact_map, count(&block)
count(item) count, cycle(n, &block)
cycle(&block) cycle, each(&block : T -> _) each, each_cons(count : Int, reuse = false, &block) each_cons, each_slice(count : Int, reuse = false, &block) each_slice, each_with_index(offset = 0, &block) each_with_index, each_with_object(obj, &block) each_with_object, find(if_none = nil, &block) find, first(count : Int)
first first, first? first?, flat_map(&block : T -> Array(U) | Iterator(U) | U) forall U flat_map, grep(pattern) grep, group_by(&block : T -> U) forall U group_by, in_groups_of(size : Int, filled_up_with : U = nil) forall U
in_groups_of(size : Int, filled_up_with : U = nil, reuse = false, &block) forall U in_groups_of, includes?(obj) includes?, index(&block)
index(obj) index, index_by(&block : T -> U) forall U index_by, join(separator, io)
join(separator = "")
join(separator, io, &block)
join(separator = "", &block) join, map(&block : T -> U) forall U map, map_with_index(&block : T, Int32 -> U) forall U map_with_index, max max, max? max?, max_by(&block : T -> U) forall U max_by, max_by?(&block : T -> U) forall U max_by?, max_of(&block : T -> U) forall U max_of, max_of?(&block : T -> U) forall U max_of?, min min, min? min?, min_by(&block : T -> U) forall U min_by, min_by?(&block : T -> U) forall U min_by?, min_of(&block : T -> U) forall U min_of, min_of?(&block : T -> U) forall U min_of?, minmax minmax, minmax? minmax?, minmax_by(&block : T -> U) forall U minmax_by, minmax_by?(&block : T -> U) forall U minmax_by?, minmax_of(&block : T -> U) forall U minmax_of, minmax_of?(&block : T -> U) forall U minmax_of?, none?(&block)
none? none?, one?(&block) one?, partition(&block) partition, product(&block)
product(initial : Number, &block)
product
product(initial : Number) product, reduce(&block)
reduce(memo, &block) reduce, reject(&block : T -> ) reject, select(&block : T -> ) select, size size, skip(count : Int) skip, skip_while(&block) skip_while, sum(initial)
sum
sum(initial, &block)
sum(&block) sum, take_while(&block) take_while, to_a to_a, to_h to_h, to_set to_set
Instance methods inherited from module Iterable(T)
chunk(reuse = false, &block : T -> U) forall U
chunk,
cycle(n)cycle cycle, each each, each_cons(count : Int, reuse = false) each_cons, each_slice(count : Int, reuse = false) each_slice, each_with_index(offset = 0) each_with_index, each_with_object(obj) each_with_object
Instance methods inherited from struct Struct
==(other : self) : Bool
==,
hash : Int32
hash,
inspect(io : IO) : Nil
inspect,
pretty_print(pp) : Nil
pretty_print,
to_s(io)
to_s
Instance methods inherited from struct Value
==(other)
==,
dup
dup
Instance methods inherited from class Object
!=(other)
!=,
!~(other)
!~,
==(other)
==,
===(other : JSON::Any)===(other : YAML::Any)
===(other) ===, =~(other) =~, class class, dup dup, hash hash, inspect(io : IO)
inspect inspect, itself itself, not_nil! not_nil!, pretty_inspect(width = 79, newline = "\n", indent = 0) : String pretty_inspect, pretty_print(pp : PrettyPrint) : Nil pretty_print, tap(&block) tap, to_json(io : IO)
to_json to_json, to_pretty_json(indent : String = " ")
to_pretty_json(io : IO, indent : String = " ") to_pretty_json, to_s
to_s(io : IO) to_s, to_yaml(io : IO)
to_yaml to_yaml, try(&block) try
Class methods inherited from class Object
from_json(string_or_io, root : String) : selffrom_json(string_or_io) : self from_json, from_yaml(string_or_io) : self from_yaml
Class Method Detail
Creates a slice to the given pointer, bounded by the given size. This method does not allocate heap memory.
ptr = Pointer.malloc(9) { |i| ('a'.ord + i).to_u8 }
slice = Slice.new(ptr, 3)
slice.size # => 3
slice # => Bytes[97, 98, 99]
String.new(slice) # => "abc"
Allocates size * sizeof(T)
bytes of heap memory initialized to value
and returns a slice pointing to that memory.
The memory is allocated by the GC
, so when there are
no pointers to this memory, it will be automatically freed.
slice = Slice.new(3, 10)
slice # => Slice[10, 10, 10]
Allocates size * sizeof(T)
bytes of heap memory initialized to zero
and returns a slice pointing to that memory.
The memory is allocated by the GC
, so when there are
no pointers to this memory, it will be automatically freed.
Only works for primitive integers and floats (UInt8
, Int32
, Float64
, etc.)
slice = Slice(UInt8).new(3)
slice # => Bytes[0, 0, 0]
Allocates size * sizeof(T)
bytes of heap memory initialized to the value
returned by the block (which is invoked once with each index in the range 0...size
)
and returns a slice pointing to that memory.
The memory is allocated by the GC
, so when there are
no pointers to this memory, it will be automatically freed.
slice = Slice.new(3) { |i| i + 10 }
slice # => Slice[10, 11, 12]
Instance Method Detail
Returns a new slice that is offset elements apart from this slice.
slice = Slice.new(5) { |i| i + 10 }
slice # => Slice[10, 11, 12, 13, 14]
slice2 = slice + 2
slice2 # => Slice[12, 13, 14]
Returns a new slice that starts at start elements from this slice's start, and of count size.
Raises IndexError
if the new slice falls outside this slice.
slice = Slice.new(5) { |i| i + 10 }
slice # => Slice[10, 11, 12, 13, 14]
slice2 = slice[1, 3]
slice2 # => Slice[11, 12, 13]
Sets the given value at the given index.
Negative indices can be used to start counting from the end of the slice.
Raises IndexError
if trying to set an element outside the slice's range.
slice = Slice.new(5) { |i| i + 10 }
slice[0] = 20
slice[-1] = 30
slice # => Slice[20, 11, 12, 13, 30]
slice[10] = 1 # raises IndexError
Copies the contents of source into this slice.
Truncates if the other slice doesn't fit. The same as source.copy_to(self)
.
Copies the contents of this slice into target.
Raises if the desination slice cannot fit the data being transferred e.g. dest.size < self.size.
src = Slice['a', 'a', 'a']
dst = Slice['b', 'b', 'b', 'b', 'b']
src.copy_to dst
dst # => Slice['a', 'a', 'a', 'b', 'b']
dst.copy_to src # raises IndexError
Returns a hexdump of this slice, assuming it's a Slice(UInt8)
.
This method is specially useful for debugging binary data and
incoming/outgoing data in protocols.
slice = UInt8.slice(97, 62, 63, 8, 255)
slice.hexdump # => "00000000 61 3e 3f 08 ff a>?.."
Returns a hexstring representation of this slice, assuming it's
a Slice(UInt8)
.
slice = UInt8.slice(97, 62, 63, 8, 255)
slice.hexstring # => "613e3f08ff"
Moves the contents of source into this slice. source and self
may
overlap; the copy is always done in a non-destructive manner.
Truncates if the other slice doesn't fit. The same as source.move_to(self)
.
Moves the contents of this slice into target. target and self
may
overlap; the copy is always done in a non-destructive manner.
Raises if the desination slice cannot fit the data being transferred
e.g. dest.size < self.size
.
src = Slice['a', 'a', 'a']
dst = Slice['b', 'b', 'b', 'b', 'b']
src.move_to dst
dst # => Slice['a', 'a', 'a', 'b', 'b']
dst.move_to src # raises IndexError
See also: Pointer#move_to
.
Returns this slice's pointer.
slice = Slice.new(3, 10)
slice.to_unsafe[0] # => 10
Macro Detail
Create a new Slice
with the given args. The type of the
slice will be the union of the type of the given args.
The slice is allocated on the heap.
slice = Slice[1, 'a']
slice[0] # => 1
slice[1] # => 'a'
slice.class # => Slice(Char | Int32)
If T
is a Number
then this is equivalent to
Number.slice
(numbers will be coerced to the type T
)
See also: Number.slice
.