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164 lines
5.1 KiB
164 lines
5.1 KiB
dojo.provide("dojox.lang.functional.multirec"); |
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dojo.require("dojox.lang.functional.lambda"); |
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dojo.require("dojox.lang.functional.util"); |
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// This module provides recursion combinators: |
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// - a multi-way recursion combinator. |
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// Acknowledgements: |
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// - recursion combinators are inspired by Manfred von Thun's article |
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// "Recursion Theory and Joy" |
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// (http://www.latrobe.edu.au/philosophy/phimvt/joy/j05cmp.html) |
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// Notes: |
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// - recursion combinators produce a function, which implements |
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// their respective recusion patterns. String lambdas are inlined, if possible. |
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(function(){ |
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var df = dojox.lang.functional, inline = df.inlineLambda, |
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_x ="_x", _y_r_y_o = ["_y.r", "_y.o"]; |
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df.multirec = function( |
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/*Function|String|Array*/ cond, |
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/*Function|String|Array*/ then, |
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/*Function|String|Array*/ before, |
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/*Function|String|Array*/ after){ |
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// summary: |
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// Generates a function for the multi-way recursion pattern. |
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// All parameter functions are called in the context of "this" object. |
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// cond: |
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// The lambda expression, which is used to detect the termination of recursion. |
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// It accepts the same parameter as the generated recursive function itself. |
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// This function should return "true", if the recursion should be stopped, |
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// and the "then" part should be executed. Otherwise the recursion will proceed. |
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// then: |
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// The lambda expression, which is called upon termination of the recursion. |
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// It accepts the same parameters as the generated recursive function itself. |
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// The returned value will be returned as the value of the generated function. |
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// before: |
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// The lambda expression, which is called before the recursive step. |
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// It accepts the same parameter as the generated recursive function itself. |
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// The returned value should be an array, which is used to call |
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// the generated function recursively. Each member of the array should be |
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// an array of parameters. The length of it defines how many times |
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// the generated function is called recursively. |
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// above: |
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// The lambda expression, which is called after the recursive step. |
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// It accepts two parameters: the array of returned values from recursive steps, |
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// and the original array of parameters used with all other functions. |
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// The returned value will be returned as the value of the generated function. |
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var c, t, b, a, cs, ts, bs, as, dict1 = {}, dict2 = {}, |
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add2dict = function(x){ dict1[x] = 1; }; |
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if(typeof cond == "string"){ |
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cs = inline(cond, _x, add2dict); |
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}else{ |
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c = df.lambda(cond); |
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cs = "_c.apply(this, _x)"; |
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dict2["_c=_t.c"] = 1; |
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} |
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if(typeof then == "string"){ |
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ts = inline(then, _x, add2dict); |
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}else{ |
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t = df.lambda(then); |
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ts = "_t.apply(this, _x)"; |
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} |
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if(typeof before == "string"){ |
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bs = inline(before, _x, add2dict); |
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}else{ |
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b = df.lambda(before); |
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bs = "_b.apply(this, _x)"; |
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dict2["_b=_t.b"] = 1; |
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} |
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if(typeof after == "string"){ |
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as = inline(after, _y_r_y_o, add2dict); |
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}else{ |
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a = df.lambda(after); |
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as = "_a.call(this, _y.r, _y.o)"; |
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dict2["_a=_t.a"] = 1; |
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} |
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var locals1 = df.keys(dict1), locals2 = df.keys(dict2), |
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f = new Function([], "var _y={a:arguments},_x,_r,_z,_i".concat( // Function |
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locals1.length ? "," + locals1.join(",") : "", |
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locals2.length ? ",_t=arguments.callee," + locals2.join(",") : "", |
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t ? (locals2.length ? ",_t=_t.t" : "_t=arguments.callee.t") : "", |
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";for(;;){for(;;){if(_y.o){_r=", |
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as, |
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";break}_x=_y.a;if(", |
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cs, |
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"){_r=", |
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ts, |
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";break}_y.o=_x;_x=", |
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bs, |
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";_y.r=[];_z=_y;for(_i=_x.length-1;_i>=0;--_i){_y={p:_y,a:_x[_i],z:_z}}}if(!(_z=_y.z)){return _r}_z.r.push(_r);_y=_y.p}" |
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)); |
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if(c){ f.c = c; } |
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if(t){ f.t = t; } |
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if(b){ f.b = b; } |
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if(a){ f.a = a; } |
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return f; |
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}; |
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})(); |
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/* |
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For documentation only: |
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1) The original recursive version: |
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var multirec1 = function(cond, then, before, after){ |
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var cond = df.lambda(cond), |
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then = df.lambda(then), |
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before = df.lambda(before), |
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after = df.lambda(after); |
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return function(){ |
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if(cond.apply(this, arguments)){ |
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return then.apply(this, arguments); |
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} |
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var args = before.apply(this, arguments), |
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ret = new Array(args.length); |
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for(var i = 0; i < args.length; ++i){ |
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ret[i] = arguments.callee.apply(this, args[i]); |
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} |
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return after.call(this, ret, arguments); |
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}; |
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}; |
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2) The original iterative version (before minification and inlining): |
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var multirec2 = function(cond, then, before, after){ |
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var cond = df.lambda(cond), |
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then = df.lambda(then), |
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before = df.lambda(before), |
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after = df.lambda(after); |
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return function(){ |
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var top = {args: arguments}, args, ret, parent, i; |
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for(;;){ |
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for(;;){ |
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if(top.old){ |
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ret = after.call(this, top.ret, top.old); |
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break; |
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} |
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args = top.args; |
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if(cond.apply(this, args)){ |
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ret = then.apply(this, args); |
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break; |
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} |
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top.old = args; |
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args = before.apply(this, args); |
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top.ret = []; |
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parent = top; |
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for(i = args.length - 1; i >= 0; --i){ |
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top = {prev: top, args: args[i], parent: parent}; |
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} |
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} |
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if(!(parent = top.parent)){ |
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return ret; |
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} |
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parent.ret.push(ret); |
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top = top.prev; |
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} |
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}; |
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}; |
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*/
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