refactor(comments): beautify comments

This commit is contained in:
Piotr Icikowski 2024-05-28 01:28:25 +02:00
parent 78b8b10998
commit b3d5fbf332
Signed by: Piotr Icikowski
GPG Key ID: 3931CA47A91F7666
6 changed files with 42 additions and 42 deletions

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@ -9,7 +9,7 @@ import (
"pkg.icikowski.pl/collections/functions" "pkg.icikowski.pl/collections/functions"
) )
// Collection represents the collection of data // Collection represents the collection of data.
// //
// By default, the collection uses parallel implementation of operators. // By default, the collection uses parallel implementation of operators.
type Collection[T any] struct { type Collection[T any] struct {
@ -17,23 +17,23 @@ type Collection[T any] struct {
parallel bool parallel bool
} }
// Count counts values in the collection // Count counts values in the collection.
func (s *Collection[T]) Count() int { func (s *Collection[T]) Count() int {
return len(s.data) return len(s.data)
} }
// Epty determines whether the collection is empty // Epty determines whether the collection is empty.
func (s *Collection[T]) Empty() bool { func (s *Collection[T]) Empty() bool {
return len(s.data) == 0 return len(s.data) == 0
} }
// Parallel sets the collection to use parallel implementation of operators // Parallel sets the collection to use parallel implementation of operators.
func (s *Collection[T]) Parallel() *Collection[T] { func (s *Collection[T]) Parallel() *Collection[T] {
s.parallel = true s.parallel = true
return s return s
} }
// Sequential sets the collection to use sequential implementation of operators // Sequential sets the collection to use sequential implementation of operators.
func (s *Collection[T]) Sequential() *Collection[T] { func (s *Collection[T]) Sequential() *Collection[T] {
s.parallel = false s.parallel = false
return s return s
@ -73,7 +73,7 @@ func (s *Collection[T]) filterSequential(p functions.Predicate[T]) *Collection[T
return s return s
} }
// Filter filters the collection using given [functions.Predicate] // Filter filters the collection using given [functions.Predicate].
func (s *Collection[T]) Filter(p functions.Predicate[T]) *Collection[T] { func (s *Collection[T]) Filter(p functions.Predicate[T]) *Collection[T] {
if s.parallel { if s.parallel {
return s.filterParallel(p) return s.filterParallel(p)
@ -113,7 +113,7 @@ func (s *Collection[T]) allMatchSequential(p functions.Predicate[T]) bool {
return true return true
} }
// AllMatch checks whether all elements in collection match given [functions.Predicate] // AllMatch checks whether all elements in collection match given [functions.Predicate].
func (s *Collection[T]) AllMatch(p functions.Predicate[T]) bool { func (s *Collection[T]) AllMatch(p functions.Predicate[T]) bool {
if s.parallel { if s.parallel {
return s.allMatchParallel(p) return s.allMatchParallel(p)
@ -153,7 +153,7 @@ func (s *Collection[T]) anyMatchSequential(p functions.Predicate[T]) bool {
return false return false
} }
// AnyMatch checks whether any elements in collection match given [functions.Predicate] // AnyMatch checks whether any elements in collection match given [functions.Predicate].
func (s *Collection[T]) AnyMatch(p functions.Predicate[T]) bool { func (s *Collection[T]) AnyMatch(p functions.Predicate[T]) bool {
if s.parallel { if s.parallel {
return s.anyMatchParallel(p) return s.anyMatchParallel(p)
@ -193,7 +193,7 @@ func (s *Collection[T]) noneMatchSequential(p functions.Predicate[T]) bool {
return true return true
} }
// NoneMatch checks whether no elements in collection match given [functions.Predicate] // NoneMatch checks whether no elements in collection match given [functions.Predicate].
func (s *Collection[T]) NoneMatch(p functions.Predicate[T]) bool { func (s *Collection[T]) NoneMatch(p functions.Predicate[T]) bool {
if s.parallel { if s.parallel {
return s.noneMatchParallel(p) return s.noneMatchParallel(p)
@ -201,7 +201,7 @@ func (s *Collection[T]) NoneMatch(p functions.Predicate[T]) bool {
return s.noneMatchSequential(p) return s.noneMatchSequential(p)
} }
// Sorted sorts the collection using given [functions.Comparator] // Sorted sorts the collection using given [functions.Comparator].
func (s *Collection[T]) Sorted(c functions.Comparator[T]) *Collection[T] { func (s *Collection[T]) Sorted(c functions.Comparator[T]) *Collection[T] {
sort.SliceStable(s.data, func(i, j int) bool { sort.SliceStable(s.data, func(i, j int) bool {
return c(s.data[i], s.data[j]) return c(s.data[i], s.data[j])
@ -232,7 +232,7 @@ func (s *Collection[T]) peekSequential(c functions.Consumer[T]) *Collection[T] {
return s return s
} }
// Peek executes given [function.Consumer] on every value in collections // Peek executes given [function.Consumer] on every value in collections.
func (s *Collection[T]) Peek(c functions.Consumer[T]) *Collection[T] { func (s *Collection[T]) Peek(c functions.Consumer[T]) *Collection[T] {
if s.parallel { if s.parallel {
return s.peekParallel(c) return s.peekParallel(c)
@ -267,7 +267,7 @@ func (s *Collection[T]) transformSequential(u functions.UnaryOperator[T]) *Colle
return s return s
} }
// Transform transforms all values in collection using given [functions.UnaryOperator] // Transform transforms all values in collection using given [functions.UnaryOperator].
func (s *Collection[T]) Transform(u functions.UnaryOperator[T]) *Collection[T] { func (s *Collection[T]) Transform(u functions.UnaryOperator[T]) *Collection[T] {
if s.parallel { if s.parallel {
return s.transformParallel(u) return s.transformParallel(u)
@ -275,7 +275,7 @@ func (s *Collection[T]) Transform(u functions.UnaryOperator[T]) *Collection[T] {
return s.transformSequential(u) return s.transformSequential(u)
} }
// Reduce reduces values in given collection using given [functions.BinaryOperator] // Reduce reduces values in given collection using given [functions.BinaryOperator].
func (s *Collection[T]) Reduce(b functions.BinaryOperator[T]) T { func (s *Collection[T]) Reduce(b functions.BinaryOperator[T]) T {
processed := *new(T) processed := *new(T)
if len(s.data) == 0 { if len(s.data) == 0 {
@ -288,7 +288,7 @@ func (s *Collection[T]) Reduce(b functions.BinaryOperator[T]) T {
return processed return processed
} }
// Limit limits the collection to given number of values // Limit limits the collection to given number of values.
func (s *Collection[T]) Limit(n int) *Collection[T] { func (s *Collection[T]) Limit(n int) *Collection[T] {
if len(s.data) < n { if len(s.data) < n {
return s return s
@ -302,7 +302,7 @@ func (s *Collection[T]) Limit(n int) *Collection[T] {
return s return s
} }
// Skip skips given number of values in the collection // Skip skips given number of values in the collection.
func (s *Collection[T]) Skip(n int) *Collection[T] { func (s *Collection[T]) Skip(n int) *Collection[T] {
if len(s.data) == 0 { if len(s.data) == 0 {
return s return s
@ -316,7 +316,7 @@ func (s *Collection[T]) Skip(n int) *Collection[T] {
return s return s
} }
// FindFirst returns [Optional] with first item of the collection // FindFirst returns [Optional] with first item of the collection.
func (s *Collection[T]) FindFirst() *Optional[T] { func (s *Collection[T]) FindFirst() *Optional[T] {
e, present := *new(T), false e, present := *new(T), false
if len(s.data) != 0 { if len(s.data) != 0 {
@ -325,7 +325,7 @@ func (s *Collection[T]) FindFirst() *Optional[T] {
return &Optional[T]{e, present} return &Optional[T]{e, present}
} }
// FindFirst returns [Optional] with last item of the collection // FindFirst returns [Optional] with last item of the collection.
func (s *Collection[T]) FindLast() *Optional[T] { func (s *Collection[T]) FindLast() *Optional[T] {
e, present := *new(T), false e, present := *new(T), false
if len(s.data) != 0 { if len(s.data) != 0 {
@ -334,17 +334,17 @@ func (s *Collection[T]) FindLast() *Optional[T] {
return &Optional[T]{e, present} return &Optional[T]{e, present}
} }
// Min returns the lowest value from the collection using given [functions.Comparator] // Min returns the lowest value from the collection using given [functions.Comparator].
func (s *Collection[T]) Min(c functions.Comparator[T]) *Optional[T] { func (s *Collection[T]) Min(c functions.Comparator[T]) *Optional[T] {
return s.Sorted(c).FindFirst() return s.Sorted(c).FindFirst()
} }
// Max returns the highest value from the collection using given [functions.Comparator] // Max returns the highest value from the collection using given [functions.Comparator].
func (s *Collection[T]) Max(c functions.Comparator[T]) *Optional[T] { func (s *Collection[T]) Max(c functions.Comparator[T]) *Optional[T] {
return s.Sorted(c).FindLast() return s.Sorted(c).FindLast()
} }
// Distinct ensures that all elements in the collecion are unique // Distinct ensures that all elements in the collecion are unique.
func (s *Collection[T]) Distinct() *Collection[T] { func (s *Collection[T]) Distinct() *Collection[T] {
processed := []T{} processed := []T{}
for i := 0; i < len(s.data); i++ { for i := 0; i < len(s.data); i++ {
@ -363,7 +363,7 @@ func (s *Collection[T]) Distinct() *Collection[T] {
return s return s
} }
// MapCollection maps collection of values of type T to collection of values of type U using given [functions.Function] // MapCollection maps collection of values of type T to collection of values of type U using given [functions.Function].
func MapCollection[T, U any](src *Collection[T], mapper functions.Function[T, U]) *Collection[U] { func MapCollection[T, U any](src *Collection[T], mapper functions.Function[T, U]) *Collection[U] {
data := []U{} data := []U{}
for _, e := range src.data { for _, e := range src.data {
@ -372,7 +372,7 @@ func MapCollection[T, U any](src *Collection[T], mapper functions.Function[T, U]
return &Collection[U]{data, src.parallel} return &Collection[U]{data, src.parallel}
} }
// Collect returns all items from collection as a slice // Collect returns all items from collection as a slice.
func (s *Collection[T]) Collect() []T { func (s *Collection[T]) Collect() []T {
return s.data return s.data
} }

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@ -2,7 +2,7 @@ package comparators
import "pkg.icikowski.pl/collections/functions" import "pkg.icikowski.pl/collections/functions"
// CompareNumeric returns comparator for numeric values // CompareNumeric returns comparator for numeric values.
func CompareNumeric[T ~int | ~int8 | ~int16 | ~int32 | ~int64 | ~uint | ~uint8 | ~uint16 | ~uint32 | ~uint64 | ~uintptr | ~float32 | ~float64]() functions.Comparator[T] { func CompareNumeric[T ~int | ~int8 | ~int16 | ~int32 | ~int64 | ~uint | ~uint8 | ~uint16 | ~uint32 | ~uint64 | ~uintptr | ~float32 | ~float64]() functions.Comparator[T] {
return func(a, b T) bool { return func(a, b T) bool {
return a < b return a < b

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@ -6,7 +6,7 @@ import (
"pkg.icikowski.pl/collections/functions" "pkg.icikowski.pl/collections/functions"
) )
// CompareString returns [functions.Comparator] for string values in given language // CompareString returns [functions.Comparator] for string values in given language.
func CompareString(lang language.Tag) functions.Comparator[string] { func CompareString(lang language.Tag) functions.Comparator[string] {
c := collate.New(lang) c := collate.New(lang)
return func(a, b string) bool { return func(a, b string) bool {

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@ -2,17 +2,17 @@ package collections
import "pkg.icikowski.pl/collections/functions" import "pkg.icikowski.pl/collections/functions"
// Of creates [Collection] of given items // Of creates [Collection] of given items.
func Of[T any](data ...T) *Collection[T] { func Of[T any](data ...T) *Collection[T] {
return &Collection[T]{data, true} return &Collection[T]{data, true}
} }
// OfSlice creates [Collection] of given slice elements // OfSlice creates [Collection] of given slice elements.
func OfSlice[T any](data []T) *Collection[T] { func OfSlice[T any](data []T) *Collection[T] {
return &Collection[T]{data, true} return &Collection[T]{data, true}
} }
// Iterate creates [Collection] of given number of items generated from given seed and [functions.UnaryOperator] // Iterate creates [Collection] of given number of items generated from given seed and [functions.UnaryOperator].
func Iterate[T any](seed T, u functions.UnaryOperator[T], limit int) *Collection[T] { func Iterate[T any](seed T, u functions.UnaryOperator[T], limit int) *Collection[T] {
if limit <= 0 { if limit <= 0 {
limit = 1 limit = 1
@ -25,7 +25,7 @@ func Iterate[T any](seed T, u functions.UnaryOperator[T], limit int) *Collection
return &Collection[T]{data, true} return &Collection[T]{data, true}
} }
// Generate creates [Collection] of given number of items generated from given [functions.Supplier] // Generate creates [Collection] of given number of items generated from given [functions.Supplier].
func Generate[T any](p functions.Supplier[T], limit int) *Collection[T] { func Generate[T any](p functions.Supplier[T], limit int) *Collection[T] {
if limit < 0 { if limit < 0 {
limit = 0 limit = 0

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@ -1,24 +1,24 @@
package functions package functions
type ( type (
// Consumer takes an argument of type T and returns nothing // Consumer takes an argument of type T and returns nothing.
Consumer[T any] func(T) Consumer[T any] func(T)
// Function takes an argument of type T and returns a result of type U // Function takes an argument of type T and returns a result of type U.
Function[T, U any] func(T) U Function[T, U any] func(T) U
// Predicate takes an argument of type T and returns a boolean result // Predicate takes an argument of type T and returns a boolean result.
Predicate[T any] func(T) bool Predicate[T any] func(T) bool
// Supplier takes no argument and returns a result of type T // Supplier takes no argument and returns a result of type T.
Supplier[T any] func() T Supplier[T any] func() T
// UnaryOperator takes an argument of type T and returns a result of type T // UnaryOperator takes an argument of type T and returns a result of type T.
UnaryOperator[T any] func(T) T UnaryOperator[T any] func(T) T
// BinaryOperator takes two arguments of type T and returns a result of type T // BinaryOperator takes two arguments of type T and returns a result of type T.
BinaryOperator[T any] func(T, T) T BinaryOperator[T any] func(T, T) T
// Comparator takes two arguments of type T and returns a boolean result // Comparator takes two arguments of type T and returns a boolean result.
Comparator[T any] func(T, T) bool Comparator[T any] func(T, T) bool
) )

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@ -2,23 +2,23 @@ package collections
import "pkg.icikowski.pl/collections/functions" import "pkg.icikowski.pl/collections/functions"
// Optional represents an optional value of type T // Optional represents an optional value of type T.
type Optional[T any] struct { type Optional[T any] struct {
e T e T
present bool present bool
} }
// IsPresent determines whether the underlying value is present // IsPresent determines whether the underlying value is present.
func (o *Optional[T]) IsPresent() bool { func (o *Optional[T]) IsPresent() bool {
return o.present return o.present
} }
// Get returns the underlying value // Get returns the underlying value.
func (o *Optional[T]) Get() T { func (o *Optional[T]) Get() T {
return o.e return o.e
} }
// OrElse returns the underlying value or given value if underlying value is not present // OrElse returns the underlying value or given value if underlying value is not present.
func (o *Optional[T]) OrElse(e T) T { func (o *Optional[T]) OrElse(e T) T {
if !o.present { if !o.present {
return e return e
@ -26,7 +26,7 @@ func (o *Optional[T]) OrElse(e T) T {
return o.e return o.e
} }
// OrElseGet returns the underlying value or value from given supplier if underlying value is not present // OrElseGet returns the underlying value or value from given supplier if underlying value is not present.
func (o *Optional[T]) OrElseGet(s functions.Supplier[T]) T { func (o *Optional[T]) OrElseGet(s functions.Supplier[T]) T {
if !o.present { if !o.present {
return s() return s()
@ -34,7 +34,7 @@ func (o *Optional[T]) OrElseGet(s functions.Supplier[T]) T {
return o.e return o.e
} }
// Transform transforms the underlying value with given [functions.UnaryOperator] if the vale is present // Transform transforms the underlying value with given [functions.UnaryOperator] if the vale is present.
func (o *Optional[T]) Transform(u functions.UnaryOperator[T]) *Optional[T] { func (o *Optional[T]) Transform(u functions.UnaryOperator[T]) *Optional[T] {
if o.present { if o.present {
o.e = u(o.e) o.e = u(o.e)
@ -42,7 +42,7 @@ func (o *Optional[T]) Transform(u functions.UnaryOperator[T]) *Optional[T] {
return o return o
} }
// MapOptional maps optional of type T to optional of type U using given [functions.Function] // MapOptional maps optional of type T to optional of type U using given [functions.Function].
func MapOptional[T, U any](src *Optional[T], mapper functions.Function[T, U]) *Optional[U] { func MapOptional[T, U any](src *Optional[T], mapper functions.Function[T, U]) *Optional[U] {
return &Optional[U]{mapper(src.e), src.present} return &Optional[U]{mapper(src.e), src.present}
} }