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go/usr/dsymonds/iterable/iterable.go

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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// The iterable package provides several traversal and searching methods.
// It can be used on anything that satisfies the Iterable interface,
// including vector, though certain functions, such as Map, can also be used on
// something that would produce an infinite amount of data.
package iterable
import "container/vector"
type Iterable interface {
// Iter should return a fresh channel each time it is called.
Iter() <-chan interface {}
}
func not(f func(interface {}) bool) (func(interface {}) bool) {
return func(e interface {}) bool { return !f(e) }
}
// All tests whether f is true for every element of iter.
func All(iter Iterable, f func(interface {}) bool) bool {
for e := range iter.Iter() {
if !f(e) {
return false
}
}
return true
}
// Any tests whether f is true for at least one element of iter.
func Any(iter Iterable, f func(interface {}) bool) bool {
return !All(iter, not(f))
}
// Data returns a slice containing the elements of iter.
func Data(iter Iterable) []interface {} {
vec := vector.New(0);
for e := range iter.Iter() {
vec.Push(e)
}
return vec.Data()
}
// filteredIterable is a struct that implements Iterable with each element
// passed through a filter.
type filteredIterable struct {
it Iterable;
f func(interface {}) bool;
}
func (f *filteredIterable) iterate(out chan<- interface {}) {
for e := range f.it.Iter() {
if f.f(e) {
out <- e
}
}
close(out)
}
func (f *filteredIterable) Iter() <-chan interface {} {
ch := make(chan interface {});
go f.iterate(ch);
return ch;
}
// Filter returns an Iterable that returns the elements of iter that satisfy f.
func Filter(iter Iterable, f func(interface {}) bool) Iterable {
return &filteredIterable{ iter, f }
}
// Find returns the first element of iter that satisfies f.
// Returns nil if no such element is found.
func Find(iter Iterable, f func(interface {}) bool) interface {} {
for e := range Filter(iter, f).Iter() {
return e
}
return nil
}
// Injector is a type representing a function that takes two arguments,
// an accumulated value and an element, and returns the next accumulated value.
// See the Inject function.
type Injector func(interface {}, interface {}) interface{};
// Inject combines the elements of iter by repeatedly calling f with an
// accumulated value and each element in order. The starting accumulated value
// is initial, and after each call the accumulated value is set to the return
// value of f. For instance, to compute a sum:
// var arr IntArray = []int{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
// sum := iterable.Inject(arr, 0,
// func(ax interface {}, x interface {}) interface {} {
// return ax.(int) + x.(int) }).(int)
func Inject(iter Iterable, initial interface {}, f Injector) interface {} {
acc := initial;
for e := range iter.Iter() {
acc = f(acc, e)
}
return acc
}
// mappedIterable is a helper struct that implements Iterable, returned by Map.
type mappedIterable struct {
it Iterable;
f func(interface {}) interface {};
}
func (m *mappedIterable) iterate(out chan<- interface {}) {
for e := range m.it.Iter() {
out <- m.f(e)
}
close(out)
}
func (m *mappedIterable) Iter() <-chan interface {} {
ch := make(chan interface {});
go m.iterate(ch);
return ch
}
// Map returns an Iterable that returns the result of applying f to each
// element of iter.
func Map(iter Iterable, f func(interface {}) interface {}) Iterable {
return &mappedIterable{ iter, f }
}
// Partition(iter, f) returns Filter(iter, f) and Filter(iter, !f).
func Partition(iter Iterable, f func(interface {}) bool) (Iterable, Iterable) {
return Filter(iter, f), Filter(iter, not(f))
}
// TODO:
// - Zip