Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Welcome To Ask or Share your Answers For Others

Categories

0 votes
323 views
in Technique[技术] by (71.8m points)

f# - What is a catamorphism and can it be implemented in C# 3.0?

I'm trying to learn about catamorphisms and I've read the Wikipedia article and the first couple posts in the series of the topic for F# on the Inside F# blog.

I understand that it's a generalization of folds (i.e., mapping a structure of many values to one value, including a list of values to another list). And I gather that the fold-list and fold-tree is a canonical example.

Can this be shown to be done in C#, using LINQ's Aggregate operator or some other higher-order method?

See Question&Answers more detail:os

与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
Welcome To Ask or Share your Answers For Others

1 Reply

0 votes
by (71.8m points)

LINQ's Aggregate() is just for IEnumerables. Catamorphisms in general refer to the pattern of folding for an arbitrary data type. So Aggregate() is to IEnumerables what FoldTree (below) is to Trees (below); both are catamorphisms for their respective data types.

I translated some of the code in part 4 of the series into C#. The code is below. Note that the equivalent F# used three less-than characters (for generic type parameter annotations), whereas this C# code uses more than 60. This is evidence why no one writes such code in C# - there are too many type annotations. I present the code in case it helps people who know C# but not F# play with this. But the code is so dense in C#, it's very hard to make sense of.

Given the following definition for a binary tree:

using System;
using System.Collections.Generic;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Input;
using System.Windows.Media;
using System.Windows.Shapes;

class Tree<T>   // use null for Leaf
{
    public T Data { get; private set; }
    public Tree<T> Left { get; private set; }
    public Tree<T> Right { get; private set; }
    public Tree(T data, Tree<T> left, Tree<T> rright)
    {
        this.Data = data;
        this.Left = left;
        this.Right = right;
    }

    public static Tree<T> Node<T>(T data, Tree<T> left, Tree<T> right)
    {
        return new Tree<T>(data, left, right);
    }
}

One can fold trees and e.g. measure if two trees have different nodes:

class Tree
{
    public static Tree<int> Tree7 =
        Node(4, Node(2, Node(1, null, null), Node(3, null, null)),
                Node(6, Node(5, null, null), Node(7, null, null)));

    public static R XFoldTree<A, R>(Func<A, R, R, Tree<A>, R> nodeF, Func<Tree<A>, R> leafV, Tree<A> tree)
    {
        return Loop(nodeF, leafV, tree, x => x);
    }

    public static R Loop<A, R>(Func<A, R, R, Tree<A>, R> nodeF, Func<Tree<A>, R> leafV, Tree<A> t, Func<R, R> cont)
    {
        if (t == null)
            return cont(leafV(t));
        else
            return Loop(nodeF, leafV, t.Left, lacc =>
                   Loop(nodeF, leafV, t.Right, racc =>
                   cont(nodeF(t.Data, lacc, racc, t))));
    }

    public static R FoldTree<A, R>(Func<A, R, R, R> nodeF, R leafV, Tree<A> tree)
    {
        return XFoldTree((x, l, r, _) => nodeF(x, l, r), _ => leafV, tree);
    }

    public static Func<Tree<A>, Tree<A>> XNode<A>(A x, Tree<A> l, Tree<A> r)
    {
        return (Tree<A> t) => x.Equals(t.Data) && l == t.Left && r == t.Right ? t : Node(x, l, r);
    }

    // DiffTree: Tree<'a> * Tree<'a> -> Tree<'a * bool> 
    // return second tree with extra bool 
    // the bool signifies whether the Node "ReferenceEquals" the first tree 
    public static Tree<KeyValuePair<A, bool>> DiffTree<A>(Tree<A> tree, Tree<A> tree2)
    {
        return XFoldTree((A x, Func<Tree<A>, Tree<KeyValuePair<A, bool>>> l, Func<Tree<A>, Tree<KeyValuePair<A, bool>>> r, Tree<A> t) => (Tree<A> t2) =>
            Node(new KeyValuePair<A, bool>(t2.Data, object.ReferenceEquals(t, t2)),
                 l(t2.Left), r(t2.Right)),
            x => y => null, tree)(tree2);
    }
}

In this second example, another tree is reconstructed differently:

class Example
{
    // original version recreates entire tree, yuck 
    public static Tree<int> Change5to0(Tree<int> tree)
    {
        return Tree.FoldTree((int x, Tree<int> l, Tree<int> r) => Tree.Node(x == 5 ? 0 : x, l, r), null, tree);
    }

    // here it is with XFold - same as original, only with Xs 
    public static Tree<int> XChange5to0(Tree<int> tree)
    {
        return Tree.XFoldTree((int x, Tree<int> l, Tree<int> r, Tree<int> orig) =>
            Tree.XNode(x == 5 ? 0 : x, l, r)(orig), _ => null, tree);
    }
}

And in this third example, folding a tree is used for drawing:

class MyWPFWindow : Window 
{
    void Draw(Canvas canvas, Tree<KeyValuePair<int, bool>> tree)
    {
        // assumes canvas is normalized to 1.0 x 1.0 
        Tree.FoldTree((KeyValuePair<int, bool> kvp, Func<Transform, Transform> l, Func<Transform, Transform> r) => trans =>
        {
            // current node in top half, centered left-to-right 
            var tb = new TextBox();
            tb.Width = 100.0; 
            tb.Height = 100.0;
            tb.FontSize = 70.0;
                // the tree is a "diff tree" where the bool represents 
                // "ReferenceEquals" differences, so color diffs Red 
            tb.Foreground = (kvp.Value ? Brushes.Black : Brushes.Red);
            tb.HorizontalContentAlignment = HorizontalAlignment.Center;
            tb.VerticalContentAlignment = VerticalAlignment.Center;
            tb.RenderTransform = AddT(trans, TranslateT(0.25, 0.0, ScaleT(0.005, 0.005, new TransformGroup())));
            tb.Text = kvp.Key.ToString();
            canvas.Children.Add(tb);
            // left child in bottom-left quadrant 
            l(AddT(trans, TranslateT(0.0, 0.5, ScaleT(0.5, 0.5, new TransformGroup()))));
            // right child in bottom-right quadrant 
            r(AddT(trans, TranslateT(0.5, 0.5, ScaleT(0.5, 0.5, new TransformGroup()))));
            return null;
        }, _ => null, tree)(new TransformGroup());
    }

    public MyWPFWindow(Tree<KeyValuePair<int, bool>> tree)
    {
        var canvas = new Canvas();
        canvas.Width=1.0;
        canvas.Height=1.0;
        canvas.Background = Brushes.Blue;
        canvas.LayoutTransform=new ScaleTransform(200.0, 200.0);
        Draw(canvas, tree);
        this.Content = canvas;
        this.Title = "MyWPFWindow";
        this.SizeToContent = SizeToContent.WidthAndHeight;
    }
    TransformGroup AddT(Transform t, TransformGroup tg) { tg.Children.Add(t); return tg; }
    TransformGroup ScaleT(double x, double y, TransformGroup tg) { tg.Children.Add(new ScaleTransform(x,y)); return tg; }
    TransformGroup TranslateT(double x, double y, TransformGroup tg) { tg.Children.Add(new TranslateTransform(x,y)); return tg; }

    [STAThread]
    static void Main(string[] args)
    {
        var app = new Application();
        //app.Run(new MyWPFWindow(Tree.DiffTree(Tree.Tree7,Example.Change5to0(Tree.Tree7))));
        app.Run(new MyWPFWindow(Tree.DiffTree(Tree.Tree7, Example.XChange5to0(Tree.Tree7))));
    }
}    

与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
OGeek|极客中国-欢迎来到极客的世界,一个免费开放的程序员编程交流平台!开放,进步,分享!让技术改变生活,让极客改变未来! Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Click Here to Ask a Question

...