Not like the previous solution here http://m.tkk7.com/chaocai/archive/2012/08/05/384844.html
The following solution not using the back tracing way is more concise and readable, but for the searching space becomes huger, the performance is much worser then the previous one.
(ns SICP.unit3)(defn conflictInCol? [s col]
(some #(= col %) s)
)
(defn conflictInDia? [s col]
(let [dia (count s)
n1 (fn [c] (Math/abs (- dia (.indexOf s c))))
n2 (fn [c] (Math/abs (- col c)))]
(some #(= (n1 %) (n2 %)) s)
)
)
(defn safe? [s col]
(not (or (conflictInCol? s col) (conflictInDia? s col)))
)
(defn next-level-queens [solutions-for-prev-level board-size current-level]
(let [solutions (atom [])]
(doseq [s solutions-for-prev-level]
(doseq [col (range 0 board-size)]
(if (safe? s col)
(reset! solutions (cons (conj s col) @solutions))
)
)
)
(if (< current-level (dec board-size))
(recur @solutions board-size (inc current-level))
(count @solutions)
)
)
)
(defn queens [board-size]
(next-level-queens (apply vector (map #(vector %) (range 0 board-size))) board-size 1)
)
Chao Cai (蔡超)
Sr. SDE
Amazon
The functions to support using XPath in Clojure.
Source Code
1 ;The code was implemented by caichao@amazon.com
2 ;You could use the code anyway, but should keep the comments
3 ;Created 2012.10
4 (ns clojure.ccsoft.xml
5 (:require [clojure.xml :as xml]))
6
7 (import '(java.io StringReader)
8 '(java.io ByteArrayInputStream))
9
10 (defn xml-structure [xml-txt]
11 [ (xml/parse (-> xml-txt
12 (.getBytes)
13 (ByteArrayInputStream.)
14 )
15 )]
16 )
17
18 (defn node [tag xmlStruct]
19
20 (first (filter #(= (:tag %) tag) (:content xmlStruct)))
21 )
22
23 (defn node [path xml-txt]
24 (loop [path path
25 xml-content (xml-structure xml-txt)
26 ]
27 (let [current-tag (first path) current-elem (first xml-content)]
28 (if (= (:tag current-elem ) current-tag)
29
30 (if (= (count path) 1)
31 current-elem
32 (recur (rest path) (:content current-elem ))
33 )
34 (if (> (count xml-content) 1)
35 (recur path (rest xml-content))
36 )
37 )
38 )
39 )
40 )
How to Use
(def cmd-example "<command>
<header>
<type>script</type>
<transaction_id>12345</transaction_id>
</header>
<body>
println 3+4;
</body>
</command>")
(node [:command :header :transaction_id] cmd-example)
The following program is about solving N-Queens problem (http://en.wikipedia.org/wiki/Eight_queens_puzzle) by Clojure. If you have the better solution in Clojure or Haskell, welcome to provide your solution.
(ns queens)
(defn conflictInRow? [queens newqueen]
(some #(= newqueen %) queens)
)
(defn conflictInDia? [queens newqueen]
(let [dia (count queens)
n1 (fn [queen] (Math/abs (- dia (.indexOf queens queen))))
n2 (fn [queen] (Math/abs (- newqueen queen)))]
(some #(= (n1 %) (n2 %)) queens)
)
)
(defn conflict? [queens newqueen]
(or (conflictInRow? queens newqueen) (conflictInDia? queens newqueen))
)
(def cnt (atom 0))
(defn put-queens [queens newqueen boardSize ]
(if (= (count queens) boardSize)
(do
(println queens)
(reset! cnt (inc @cnt))
)
(do
;(println queens)
(if (> newqueen boardSize)
(if (and (= (peek queens) boardSize) (= (count queens) 1))
(throw (Exception. (str "That's all " @cnt)))
(recur (pop queens) (inc (peek queens)) boardSize )
)
(if (conflict? queens newqueen)
(recur queens (inc newqueen) boardSize )
(do
(put-queens (conj queens newqueen) 1 boardSize )
(recur queens (inc newqueen) boardSize )
)
)
)
)
)
)
(defn queens [boardSize]
(put-queens [] 1 boardSize)
)
Chao Cai (蔡超)
Sr. Software Dev Engineer
Amazon.com
1 The annotation:
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.METHOD)
@Inherited
public @interface NeedToRetry {
Class<?>[] recoverableExceptions();
int retryTime();
int intervalIncrementalFactor() default 0;
long retryInterval() default 0L;
}
2 The Aspect
@Aspect
public class InvokingRetryInterceptor {
private static Logger log = Logger.getLogger(InvokingRetryInterceptor.class);
private boolean isNeedToRetry(Throwable t,Class<?>[] recoverableExceptions){
String exceptionName= t.getClass().getName();
for (Class<?> exp:recoverableExceptions){
if (exp.isInstance(t)){
return true;
}
}
log.warn("The exception doesn't need recover!"+exceptionName);
return false;
}
private long getRetryInterval(int tryTimes,long interval,int incrementalFactor){
return interval+(tryTimes*incrementalFactor);
}
@Around(value="@annotation(amazon.internal.dropship.common.NeedToRetry)&&@annotation(retryParam)",argNames="retryParam")
public Object process(ProceedingJoinPoint pjp,NeedToRetry retryParam ) throws Throwable{
boolean isNeedTry=true;
int count=0;
Throwable fault;
Class<?>[] recoverableExceptions=retryParam.recoverableExceptions();
int retryTime=retryParam.retryTime();
long retryInterval=retryParam.retryInterval();
int incrementalFactor=retryParam.intervalIncrementalFactor();
do{
try{
return pjp.proceed();
}catch(Throwable t){
fault=t;
if (!isNeedToRetry(t,recoverableExceptions)){
break;
}
Thread.sleep(getRetryInterval(retryTime,retryInterval,incrementalFactor));
}
count++;
}while(count<(retryTime+1));
throw fault;
}
}
http://www.rkb.gov.cn/jsj/cms/s_contents/download/s_dt201103170102.html
ATDD (Acceptance Test Driven Development) is the extension of TDD, which helps us deliver exactly what the customer wants. Now ATDD has already been the hot spot in the software development world. There are several variations of ATDD including BDD, EDD and etc, also more and more frameworks have been created to help us develop with ATDD, for example FIT and JBehave.
The followings will introduce how to use the JBehave in your real project effectively.
Figure 1 Test Code Structure
Each test implementation could be divided into four layers, this structure could help us improve the codes reusability and maintainability, So, it will make us implement the tests quickly and easily.
Specification/Scenario layer:
This layer describes system’s behaviors and functionalities by the scenarios. For using JBehave, we can use the natural language describe the scenarios and just need to follow the JBehave ‘Given-When-Then’ rule.
Parser layer:
We don’t need to implement this layer , this layer has been implemented by JBehave. What exactly JBehave do is to relate the steps of the scenario to the methods of the test codes.
Step Logic Layer:
The layer implements test logics associating with every step of the scenarios. Every step are implemented by a Java method.
Action/Utils layer
This the very important layer to improve the reusability of our codes. This layer provides the utility methods to help you implement step logics. These utility methods usually involved the system state checking, mock requests sending and so on.
For example, we can provide the methods to check the data in database/file or check the state of the middleware, also so frameworks are very useful to implement the logic simulating the client browser’s requests.
Chao Cai
Working for Amazon.com
chaocai2001@yahoo.com.cn
How to design the testable software? You may always find some best practices about designing for scalable, extensible or maintainable. To be testable, the best way should be TDD. Followings are some tips from my real practices on TDD.
1 TDD is design process; it let you design for testing, naturally
Write the test firstly, it does not only help you find the bugs; but the most important point is to let you design for test naturally.
Also you should keep in mind, tests not only help you find bugs, but also protect your codes; when some changes impact on your existing codes, the tests will be broken.
2 Keep the implementation simple
Keep your implementation simple, just let the test pass. The complex implementation may introduce the logics or codes not covered by the tests, even leads some codes not testable.
3 TDD in each scope.
You may get to know the concept ATDD (acceptance test driven development). TDD could be used in every phase of the development and by the different granularity.
To ATDD, you could consider on using some existing framework such as FIT, these frameworks will be bridge between business logic and implementation logic.
Recently, the concept BDD (behavior driven development) is introduced to the ATDD process, so the BDD frameworks such as JBehave is also the good choice.
Different TDD process could be nested and should be nested don’t let your step too large.
4 keep each step small enough
Always keep each step small to avoid introducing the untestable codes or logics and pass each test quickly.
6 Always refactor
This step is always overlooked in TDD process; however it is the very important step. Also, never forget refactor should involve all your tests.
Why can't write test firstly?
1.not think how to meature the codes
2. The current step maybe too large, should separate into small ones
3. The codes with ugly dependencies
http://blog.csdn.net/chaocai2004/archive/2011/01/09/6125479.aspx
Chao Cai (蔡超)
Sr. SDE
Amazon.com
相信大家對于算法的時間復雜度O都不會陌生,不過你知道一個算法的時間復雜度是如何計算出來的嗎?
以前在學習算法和數據結構的時候,對于每種算法的復雜度都是死記的并沒有真正的去研究他們是如何計算出來,最近突然對算法產生了興趣,迫使自己研究了一下算法復雜度的計算方法。
概念
大O表示法表示時間復雜性,注意它是某一個算法的時間復雜性。大O表示只是說有上界,由定義如果f(n)=O(n),那顯然成立f(n)=O(n^2),它給你一個上界,但并不是上確界,但人們在表示的時候一般都習慣表示前者。
另外除了這個官方概念,個人認為大O表示的是問題規模n和算法中語句執行次數的關系。
以二分查找為例,我們求解它的時間復雜度
1 設規模為n個元素時,要執行T(n)次
T(n)=T(n/2)+1
T(n)=[T(n/4)+1]+1
…
T(n)=T(n/2^m)+m
當n=2^m
T(n)=T(1)+log2n
T(1)=1
所以其算法復雜度為O(log2n)
摘要:
由于腳本語言通常提供了更為簡潔的語法及Java所不具有的一些新的語言特性(如:閉包,元編程等),所以在一些情況下可以創造出比Java程序更具有可讀性的代碼。另外,眾多基于JVM的腳本語言也為與Java程序整合帶來了便利。
Client: 語義模型實例的調用者
SemanticConcept: 語義模型定義,可以通過腳本語言或Java實現
ModelBuilder: 語...
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由于Weblogic中包含的相關JWS及JAX-RPC實現的影響使得我們在其中部署相關CXF應用時總是會遇到一些棘手的問題,本人根據自己的實踐經驗將其中一些注意事項作了一下總結。
1 以EAR形式部署
將CXF的應用以WAR的形式包含在EAR中,在EAR的META-INF中的配置文件application.xml中聲明你的WAR,并在weblogic-application.xml中加入以下內容:
<?xml version="1.0" encoding="UTF-8"?>
<weblogic-application xmlns="http://www.bea.com/ns/weblogic/90">
<application-param>
<param-name>webapp.encoding.default</param-name>
<param-value>UTF-8</param-value>
</application-param>
<prefer-application-packages>
<package-name>javax.jws.*</package-name>
</prefer-application-packages>
</weblogic-application>
這個配置是告訴應用服務器的類裝載器對于該EAR而言優先使用該EAR中javax.jws.*的實現。
2 在應用服務器啟動時加入Java VM參數
-Djavax.xml.soap.MessageFactory=com.sun.xml.messaging.saaj.soap.ver1_1.SOAPMessageFactory1_1Impl
好了現在一切搞定!
(蔡超 chaocai2001@yahoo.com.cn)