Documentation ¶
Overview ¶
Package containers provides core interfaces and functions for data structures.
Container is the base interface for all data structures to implement.
Iterators provide stateful iterators.
Enumerable provides Ruby inspired (each, select, map, find, any?, etc.) container functions.
Serialization provides serializers (marshalers) and deserializers (unmarshalers).
Package lists provides an abstract List interface.
In computer science, a list or sequence is an abstract data type that represents an ordered sequence of values, where the same value may occur more than once. An instance of a list is a computer representation of the mathematical concept of a finite sequence; the (potentially) infinite analog of a list is a stream. Lists are a basic example of containers, as they contain other values. If the same value occurs multiple times, each occurrence is considered a distinct item.
Reference: https://en.wikipedia.org/wiki/List_%28abstract_data_type%29
Package maps provides an abstract Map interface.
In computer science, an associative array, map, symbol table, or dictionary is an abstract data type composed of a collection of (key, value) pairs, such that each possible key appears just once in the collection.
Operations associated with this data type allow: - the addition of a pair to the collection - the removal of a pair from the collection - the modification of an existing pair - the lookup of a value associated with a particular key
Reference: https://en.wikipedia.org/wiki/Associative_array
Package sets provides an abstract Set interface.
In computer science, a set is an abstract data type that can store certain values and no repeated values. It is a computer implementation of the mathematical concept of a finite set. Unlike most other collection types, rather than retrieving a specific element from a set, one typically tests a value for membership in a set.
Reference: https://en.wikipedia.org/wiki/Set_%28abstract_data_type%29
Package stacks provides an abstract Stack interface.
In computer science, a stack is an abstract data type that serves as a collection of elements, with two principal operations: push, which adds an element to the collection, and pop, which removes the most recently added element that was not yet removed. The order in which elements come off a stack gives rise to its alternative name, LIFO (for last in, first out). Additionally, a peek operation may give access to the top without modifying the stack.
Reference: https://en.wikipedia.org/wiki/Stack_%28abstract_data_type%29
Package trees provides an abstract Tree interface.
In computer science, a tree is a widely used abstract data type (ADT) or data structure implementing this ADT that simulates a hierarchical tree structure, with a root value and subtrees of children with a parent node, represented as a set of linked nodes.
Reference: https://en.wikipedia.org/wiki/Tree_%28data_structure%29
Package utils provides common utility functions.
Provided functionalities: - sorting - comparators
Index ¶
- func ByteComparator(a, b interface{}) int
- func Float32Comparator(a, b interface{}) int
- func Float64Comparator(a, b interface{}) int
- func GetSortedValues(container Container, comparator Comparator) []interface{}
- func Int16Comparator(a, b interface{}) int
- func Int32Comparator(a, b interface{}) int
- func Int64Comparator(a, b interface{}) int
- func Int8Comparator(a, b interface{}) int
- func IntComparator(a, b interface{}) int
- func RuneComparator(a, b interface{}) int
- func Sort(values []interface{}, comparator Comparator)
- func StringComparator(a, b interface{}) int
- func TimeComparator(a, b interface{}) int
- func ToString(value interface{}) string
- func UInt16Comparator(a, b interface{}) int
- func UInt32Comparator(a, b interface{}) int
- func UInt64Comparator(a, b interface{}) int
- func UInt8Comparator(a, b interface{}) int
- func UIntComparator(a, b interface{}) int
- type BidiMap
- type Comparator
- type Container
- type EnumerableWithIndex
- type EnumerableWithKey
- type IteratorWithIndex
- type IteratorWithKey
- type JSONDeserializer
- type JSONSerializer
- type List
- type Map
- type ReverseIteratorWithIndex
- type ReverseIteratorWithKey
- type Set
- type Stack
- type Tree
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func ByteComparator ¶
func ByteComparator(a, b interface{}) int
ByteComparator provides a basic comparison on byte
func Float32Comparator ¶
func Float32Comparator(a, b interface{}) int
Float32Comparator provides a basic comparison on float32
func Float64Comparator ¶
func Float64Comparator(a, b interface{}) int
Float64Comparator provides a basic comparison on float64
func GetSortedValues ¶
func GetSortedValues(container Container, comparator Comparator) []interface{}
GetSortedValues returns sorted container's elements with respect to the passed comparator. Does not effect the ordering of elements within the container.
func Int16Comparator ¶
func Int16Comparator(a, b interface{}) int
Int16Comparator provides a basic comparison on int16
func Int32Comparator ¶
func Int32Comparator(a, b interface{}) int
Int32Comparator provides a basic comparison on int32
func Int64Comparator ¶
func Int64Comparator(a, b interface{}) int
Int64Comparator provides a basic comparison on int64
func Int8Comparator ¶
func Int8Comparator(a, b interface{}) int
Int8Comparator provides a basic comparison on int8
func IntComparator ¶
func IntComparator(a, b interface{}) int
IntComparator provides a basic comparison on int
func RuneComparator ¶
func RuneComparator(a, b interface{}) int
RuneComparator provides a basic comparison on rune
func Sort ¶
func Sort(values []interface{}, comparator Comparator)
Sort sorts values (in-place) with respect to the given comparator.
Uses Go's sort (hybrid of quicksort for large and then insertion sort for smaller slices).
func StringComparator ¶
func StringComparator(a, b interface{}) int
StringComparator provides a fast comparison on strings
func TimeComparator ¶
func TimeComparator(a, b interface{}) int
TimeComparator provides a basic comparison on time.Time
func UInt16Comparator ¶
func UInt16Comparator(a, b interface{}) int
UInt16Comparator provides a basic comparison on uint16
func UInt32Comparator ¶
func UInt32Comparator(a, b interface{}) int
UInt32Comparator provides a basic comparison on uint32
func UInt64Comparator ¶
func UInt64Comparator(a, b interface{}) int
UInt64Comparator provides a basic comparison on uint64
func UInt8Comparator ¶
func UInt8Comparator(a, b interface{}) int
UInt8Comparator provides a basic comparison on uint8
func UIntComparator ¶
func UIntComparator(a, b interface{}) int
UIntComparator provides a basic comparison on uint
Types ¶
type Comparator ¶
type Comparator func(a, b interface{}) int
Comparator will make type assertion (see IntComparator for example), which will panic if a or b are not of the asserted type.
Should return a number:
negative , if a < b zero , if a == b positive , if a > b
type EnumerableWithIndex ¶
type EnumerableWithIndex interface { // Each calls the given function once for each element, passing that element's index and value. Each(func(index int, value interface{})) // Any passes each element of the container to the given function and // returns true if the function ever returns true for any element. Any(func(index int, value interface{}) bool) bool // All passes each element of the container to the given function and // returns true if the function returns true for all elements. All(func(index int, value interface{}) bool) bool // Find passes each element of the container to the given function and returns // the first (index,value) for which the function is true or -1,nil otherwise // if no element matches the criteria. Find(func(index int, value interface{}) bool) (int, interface{}) }
EnumerableWithIndex provides functions for ordered containers whose values can be fetched by an index.
type EnumerableWithKey ¶
type EnumerableWithKey interface { // Each calls the given function once for each element, passing that element's key and value. Each(func(key interface{}, value interface{})) // Any passes each element of the container to the given function and // returns true if the function ever returns true for any element. Any(func(key interface{}, value interface{}) bool) bool // All passes each element of the container to the given function and // returns true if the function returns true for all elements. All(func(key interface{}, value interface{}) bool) bool // Find passes each element of the container to the given function and returns // the first (key,value) for which the function is true or nil,nil otherwise if no element // matches the criteria. Find(func(key interface{}, value interface{}) bool) (interface{}, interface{}) }
EnumerableWithKey provides functions for ordered containers whose values whose elements are key/value pairs.
type IteratorWithIndex ¶
type IteratorWithIndex interface { // Next moves the iterator to the next element and returns true if there was a next element in the container. // If Next() returns true, then next element's index and value can be retrieved by Index() and Value(). // If Next() was called for the first time, then it will point the iterator to the first element if it exists. // Modifies the state of the iterator. Next() bool // Value returns the current element's value. // Does not modify the state of the iterator. Value() interface{} // Index returns the current element's index. // Does not modify the state of the iterator. Index() int // Begin resets the iterator to its initial state (one-before-first) // Call Next() to fetch the first element if any. Begin() // First moves the iterator to the first element and returns true if there was a first element in the container. // If First() returns true, then first element's index and value can be retrieved by Index() and Value(). // Modifies the state of the iterator. First() bool }
IteratorWithIndex is stateful iterator for ordered containers whose values can be fetched by an index.
type IteratorWithKey ¶
type IteratorWithKey interface { // Next moves the iterator to the next element and returns true if there was a next element in the container. // If Next() returns true, then next element's key and value can be retrieved by Key() and Value(). // If Next() was called for the first time, then it will point the iterator to the first element if it exists. // Modifies the state of the iterator. Next() bool // Value returns the current element's value. // Does not modify the state of the iterator. Value() interface{} // Key returns the current element's key. // Does not modify the state of the iterator. Key() interface{} // Begin resets the iterator to its initial state (one-before-first) // Call Next() to fetch the first element if any. Begin() // First moves the iterator to the first element and returns true if there was a first element in the container. // If First() returns true, then first element's key and value can be retrieved by Key() and Value(). // Modifies the state of the iterator. First() bool }
IteratorWithKey is a stateful iterator for ordered containers whose elements are key value pairs.
type JSONDeserializer ¶
type JSONDeserializer interface { // FromJSON populates containers's elements from the input JSON representation. FromJSON([]byte) error }
JSONDeserializer provides JSON deserialization
type JSONSerializer ¶
type JSONSerializer interface { // ToJSON outputs the JSON representation of containers's elements. ToJSON() ([]byte, error) }
JSONSerializer provides JSON serialization
type List ¶
type List interface { Get(index int) (interface{}, bool) Remove(index int) Add(values ...interface{}) Contains(values ...interface{}) bool Sort(comparator Comparator) Swap(index1, index2 int) Insert(index int, values ...interface{}) Set(index int, value interface{}) Container }
List interface that all lists implement
type Map ¶
type Map interface { Put(key interface{}, value interface{}) Get(key interface{}) (value interface{}, found bool) Remove(key interface{}) Keys() []interface{} Container }
Map interface that all maps implement
type ReverseIteratorWithIndex ¶
type ReverseIteratorWithIndex interface { // Prev moves the iterator to the previous element and returns true if there was a previous element in the container. // If Prev() returns true, then previous element's index and value can be retrieved by Index() and Value(). // Modifies the state of the iterator. Prev() bool // End moves the iterator past the last element (one-past-the-end). // Call Prev() to fetch the last element if any. End() // Last moves the iterator to the last element and returns true if there was a last element in the container. // If Last() returns true, then last element's index and value can be retrieved by Index() and Value(). // Modifies the state of the iterator. Last() bool IteratorWithIndex }
ReverseIteratorWithIndex is stateful iterator for ordered containers whose values can be fetched by an index.
Essentially it is the same as IteratorWithIndex, but provides additional:
Prev() function to enable traversal in reverse ¶
Last() function to move the iterator to the last element.
End() function to move the iterator past the last element (one-past-the-end).
type ReverseIteratorWithKey ¶
type ReverseIteratorWithKey interface { // Prev moves the iterator to the previous element and returns true if there was a previous element in the container. // If Prev() returns true, then previous element's key and value can be retrieved by Key() and Value(). // Modifies the state of the iterator. Prev() bool // End moves the iterator past the last element (one-past-the-end). // Call Prev() to fetch the last element if any. End() // Last moves the iterator to the last element and returns true if there was a last element in the container. // If Last() returns true, then last element's key and value can be retrieved by Key() and Value(). // Modifies the state of the iterator. Last() bool IteratorWithKey }
ReverseIteratorWithKey is a stateful iterator for ordered containers whose elements are key value pairs.
Essentially it is the same as IteratorWithKey, but provides additional:
Prev() function to enable traversal in reverse ¶
Last() function to move the iterator to the last element.
type Set ¶
type Set interface { Add(elements ...interface{}) Remove(elements ...interface{}) Contains(elements ...interface{}) bool Container }
Set interface that all sets implement