emilis
/
flabk
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

Optimization for vector

This commit is contained in:
emilis 2022-08-02 15:49:10 +01:00
parent 97014203e4
commit 0d2936b91b
3 changed files with 60 additions and 97 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

19
pkg/coll/Iterator.go
View File

@ -1,19 +0,0 @@
package coll
type Iterator[T any] Vector[T]
func (i Iterator[T]) ForEach(f func(int, T)) {
for index := 0; index < i.length; index++ {
f(index, i.array[index])
}
}
func (i Iterator[T]) ForBreak(f func(index int, t T, breaker func())) {
var broke bool
brk := func() {
broke = true
}
for index := 0; index < i.length || !broke; index++ {
f(index, i.array[index], brk)
}
}

43
pkg/coll/coll.go
View File

@ -2,43 +2,41 @@
package coll package coll
func Map[T, V any](c Vector[T], f func(T) V) Vector[V] { func Map[T, V any](c Vector[T], f func(T) V) Vector[V] {
out := make([]V, c.length) out := make([]V, len(c))
for index := 0; index < c.length; index++ { for index := 0; index < len(c); index++ {
out[index] = f(c.array[index]) out[index] = f(c[index])
} }
return From(out) return From(out)
} }
func Filter[T any](v Vector[T], f func(T) bool) Vector[T] { func Filter[T any](v Vector[T], f func(T) bool) Vector[T] {
out := WithCap[T](v.length) out := WithCap[T](len(v))
v.Iterate().ForEach(func(_ int, t T) { for _, t := range v {
if f(t) { if f(t) {
out.Push(t) out.Push(t)
} }
}) }
return out return out
} }
func Take[T any](v Vector[T], howMany int) Vector[T] { func Take[T any](v Vector[T], howMany int) Vector[T] {
if v.length == 0 { if len(v) == 0 {
return New[T]() return New[T]()
} }
if v.length < howMany { if len(v) < howMany {
howMany = v.length howMany = len(v)
} }
return From(v.array[:howMany-1]) return From(v[:howMany-1])
} }
func Any[T any](v Vector[T], f func(T) bool) bool { func Any[T any](v Vector[T], f func(T) bool) bool {
var found bool for _, t := range v {
v.Iterate().ForBreak(func(_ int, t T, breaker func()) {
if f(t) { if f(t) {
found = true return true
breaker()
} }
}) }
return found return false
} }
type numeric interface { type numeric interface {
@ -47,26 +45,25 @@ type numeric interface {
func Min[T numeric](v Vector[T]) T { func Min[T numeric](v Vector[T]) T {
var min T var min T
if v.length == 0 { if len(v) == 0 {
return min return min
} }
min = v.array[0] min = v[0]
v.Iterate().ForEach(func(_ int, t T) { for _, t := range v {
if min > t { if min > t {
min = t min = t
} }
}) }
return min return min
} }
func Max[T numeric](v Vector[T]) T { func Max[T numeric](v Vector[T]) T {
var max T var max T
v.Iterate().ForEach(func(_ int, t T) { for _, t := range v {
if max < t { if max < t {
max = t max = t
} }
}) }
return max return max
} }

95
pkg/coll/vector.go
View File

@ -6,143 +6,128 @@ const (
DefaultSize = 4 DefaultSize = 4
) )
type Vector[T any] struct { type Vector[T any] []T
array []T
length int
capacity int
}
func New[T any]() Vector[T] { func New[T any]() Vector[T] {
return WithCap[T](DefaultSize) return WithCap[T](DefaultSize)
} }
func WithCap[T any](capacity int) Vector[T] { func WithCap[T any](capacity int) Vector[T] {
return Vector[T]{ return make(Vector[T], 0, capacity)
array: make([]T, capacity),
length: 0,
capacity: capacity,
}
} }
func From[T any](v []T) Vector[T] { func From[T any](v []T) Vector[T] {
return Vector[T]{ return Vector[T](v)
array: v,
length: len(v),
capacity: len(v),
}
} }
func (v Vector[T]) Push(t T) Vector[T] { func (v Vector[T]) Push(t T) Vector[T] {
if v.length == v.capacity { if len(v) == cap(v) {
v = v.upsize() v = v.upsize()
} }
v.array[v.length] = t v = v[:len(v)+1]
v.length++ v[len(v)-1] = t
return v return v
} }
func (v Vector[T]) Append(t ...T) Vector[T] { func (v Vector[T]) Append(t ...T) Vector[T] {
if v.capacity-v.length < len(t) { if cap(v)-len(v) < len(t) {
v = v.upsizeSpecific(len(t)) v = v.upsizeSpecific(len(t))
} }
startLen := len(v)
v = v[:len(v)+len(t)]
var tIndex int var tIndex int
for ; v.length < v.capacity; v.length++ { for index := startLen; index < cap(v); index++ {
v.array[v.length] = t[tIndex] v[index] = t[tIndex]
tIndex++ tIndex++
} }
return v return v
} }
func (v Vector[T]) Remove(index int) Vector[T] { func (v Vector[T]) Remove(index int) Vector[T] {
return From(append(v.array[:index], v.array[index+1:v.length]...)) return From(append(v[:index], v[index+1:]...))
} }
// Faster remove function that can be used on vectors where ordering doesn't matter // Faster remove function that can be used on vectors where ordering doesn't matter
func (v Vector[T]) RemoveUnordered(index int) Vector[T] { func (v Vector[T]) RemoveUnordered(index int) Vector[T] {
v.length-- v[index] = v[len(v)-1]
v.array[index] = v.array[v.length] return v[:len(v)-1]
return v
} }
func (v Vector[T]) upsize() Vector[T] { func (v Vector[T]) upsize() Vector[T] {
return v.upsizeSpecific(v.capacity) return v.upsizeSpecific(cap(v))
} }
func (v Vector[T]) upsizeSpecific(extraSize int) Vector[T] { func (v Vector[T]) upsizeSpecific(extraSize int) Vector[T] {
v.array = append(v.array, make([]T, extraSize)...) fmt.Println(cap(v), extraSize)
v.capacity = len(v.array) resized := make([]T, len(v), cap(v)+extraSize)
return v copy(resized, v)
return resized
} }
func (v Vector[T]) Slice() []T { func (v Vector[T]) Slice() []T {
if v.length == 0 { if len(v) == 0 {
return []T{} return []T{}
} }
return v.array[:v.length] return v[:len(v)]
} }
func (v Vector[T]) panicIndex(index int) { func (v Vector[T]) panicIndex(index int) {
min := -1 min := -1
if v.length != 0 { if len(v) != 0 {
min = 0 min = 0
} }
panic(fmt.Sprintf("index %d out of range [%d;%d)", index, min, v.length)) panic(fmt.Sprintf("index %d out of range [%d;%d)", index, min, len(v)))
} }
// GetSoft tries to get the requested index, or returns a default value if // GetSoft tries to get the requested index, or returns a default value if
// it's out of range // it's out of range
func (v Vector[T]) GetSoft(index int) T { func (v Vector[T]) GetSoft(index int) T {
var result T var result T
if index < 0 || index >= v.length { if index < 0 || index >= len(v) {
return result return result
} }
return v.array[index] return v[index]
} }
func (v Vector[T]) Get(index int) T { func (v Vector[T]) Get(index int) T {
if index < 0 || index >= v.length { if index < 0 || index >= len(v) {
v.panicIndex(index) v.panicIndex(index)
} }
return v.array[index] return v[index]
} }
func (v Vector[T]) Set(index int, value T) Vector[T] { func (v Vector[T]) Set(index int, value T) Vector[T] {
if index < 0 || index >= v.length { if index < 0 || index >= len(v) {
v.panicIndex(index) v.panicIndex(index)
} }
v.array[index] = value v[index] = value
return v return v
} }
func (v Vector[T]) Len() int { func (v Vector[T]) Len() int {
return v.length return len(v)
}
func (v Vector[T]) Iterate() Iterator[T] {
return Iterator[T](v)
} }
func (v Vector[T]) Pop() (T, Vector[T]) { func (v Vector[T]) Pop() (T, Vector[T]) {
v.length-- t := v[len(v)-1]
t := v.array[v.length] return t, v[:len(v)-1]
return t, v
} }
func (v Vector[T]) Sub(start, end int) Vector[T] { func (v Vector[T]) Sub(start, end int) Vector[T] {
if start >= v.length { if start >= len(v) {
v.panicIndex(start) v.panicIndex(start)
} }
if end >= v.length { if end >= len(v) {
v.panicIndex(end) v.panicIndex(end)
} }
if start < 0 { if start < 0 {
return From(v.array[:end]) return From(v[:end])
} }
if end < 0 { if end < 0 {
return From(v.array[start:]) return From(v[start:])
} }
return From(v.array[start:end]) return From(v[start:end])
} }
func (v Vector[T]) Filter(f func(T) bool) Vector[T] { func (v Vector[T]) Filter(f func(T) bool) Vector[T] {
@ -158,8 +143,8 @@ func (v Vector[T]) Take(howMany int) Vector[T] {
} }
func (v Vector[T]) Clone() Vector[T] { func (v Vector[T]) Clone() Vector[T] {
clone := make([]T, len(v.array)) clone := make([]T, len(v))
copy(clone, v.array) copy(clone, v)
v.array = clone v = clone
return v return v
} }