Develop Reference

What's the most effective workflow between people who develop algorithms and developers?

We are developing software with pattern recognition in video. We have 7 mathematicians who are creating algorithms. Plus we have 2 developers that maintain / develop the application with these algorithms. The problem is that mathematicians are using different development tools to create algorithm like Matlab, C, C++. Also because they are not developers the don't give much concerns for memory management or multi-threading. This one of the reason why the app. has a lot of bugs.
If in your company you have similar situation, how do you deal with it? What's the best tools you can recommend to create algorithms? What communication supposed to be between mathematicians and developers? What's in your opinion the most effective to work with high-level tools?

I am not sure whether you devs are rewriting the mathematician's stuff or if you just have to interface to it so I am not sure if my answer is of any use.
However: I work together with a bunch of phd candidates and postdocs on a machine learning library and am a student myself. In that process, I came to translate a lot of algorithms from python/numpy to C++/blas.
This process can be quite tedious - especially with numerical and stochastic algorithms, it is hard to find bugs.
So here is what I did: Get some sample inputs and calculate the results with the python code. Generate unit tests out of these for C++ and then start coding them in C++.
Checking concrete sample inputs with the outputs is essential in this setting.

I agree with Makach.
Let the guys who are creating the algorithms use the tools that they are most familiar with. Because there are two separate (and equally important) tasks to work on in this project. First, there is the creating of an efficient, elegant and appropriate mathematically sound algorithm, then there is the twistedly difficult task of translating it into CPU-speak. The mathimaticians should focus on their first task, and to make it easier for them, allow them to use the toosl they are comfortable with. In terms of man hours, it is a much more efficient use of their time to write MATLAB code, than it would be to have them learn a new programming language.
Your task is to unearth the (presumably) brilliant mathematics that are buried within the gibberish code.
That part is just a perspective on the problem at hand. Here's the actual answer.
Communication, mutual respect, and teaching/learning.
Communication & Mutual Respect
You must communicate with them often. Work closely with them and ask them questions whenever you come across something you're not sure of. This is much easier when there is mutual respect, which means that if you spend all your time criticizing their coding abilities, then they will be forced to spend all their time criticizing your math abilities. Instead, try quick learning-sessions. ("Lunch & Learn" is a fairly common tactic)
Teaching/Learning
The first and most important piece of wisdom to impart to them is commenting. Have them comment the crap out of their code. Tell them that the comments are much more important than the code quality, and that as long as their comments are right, they can leave the rest up to you guys. Because they can. They don't need to have their code look beautiful, for be the fastest, they just need it to make sense to you guys.
To continue this mutual learning scenario, if you notice some very simple very common mistakes they are making, (nothing NEARLY as complicated as multithreading) just give them a quick heads up. "That way works (or doesn't) but here's a way to do it that is a little different but it will make your lives much much easier." Encourage them to reciprocate by trying to notice which nuances or parts of their algorithms which you and your team are having difficulty with and teach a little tutorial about it.
Once you guys get the communication flowing, you'll find it easier and easier to shape their coding style to what is best for your team, and they will also find it easier to understand why you don't see it the same way they do.
Also, as mentioned by Kekoav, make sure they provide a few fully loaded test cases.
That means for something like
A -> B -> C -> D -> Solution
They would provide you all the values for A, then what it looks like at B, then what it looks like at C and so on. So that you can be certain that not only is it correct at the end, but it's also correct at every step of the way. Try to have them provide examples that are regular, and also a few of them that are unusual, so that you can be certain your code covers edge cases.

I'd recommend the devs spend a few hours getting used to Matlab, especially the Matlab debugger. If their background is CS then they'll already be familiar with vectors and matrices theoretically if not practically. Other than the matrix being the default data structure, Matlab is C-like and easy enough to interpret for translation into another language.

I have been working with a physics professor lately, and have a little experience with this(although admittedly I'm no expert).
I have had to translate a lot of Matlab code into another language. It has been difficult because a lot of(most) of the operations are absent, including when it comes to precision, and working with matrices and vectors. A good math library needs to be found, or created to fit your needs.
The best way that I have found is to do the following:
Get the algorithm to work correctly in the new language.
Create some tests to verify that the algorithm is producing desired output. Have your mathematicians verify that your converted solution in fact works, and that you have covered all bases with your tests.
Then after it is working, and you can trust your tests, optimize the algorithm to be good coding style, have good design and performance characteristics. Use your regression tests to make sure you aren't breaking anything.
I normally start with a verbatim copy of their algorithms into the other language, and then work from there, regardless of if I do a lot of tests.
It is important to get a working copy first, in case the performance is really not an issue and you need to move on to other things and can come back later to make it faster.

This is your job. How you deal with this is what identifies you as a system developer.
Communicate with your colleagues. Draw and explain, have meetings, agree upon and set standards requirements, follow your plans and talk to your project manager. Make sure that your relevant colleagues are joining up on meetings. Have 1-1 talks etc etc
You cannot blame it on the mathematicians for developers creating bugs. It's their job to worry about implementation, not the mathematicians.

What is a good game involving coding?

I remember the days of Shadowrun that got me excited about hacking. There is CodeWar and LightBot which are both fun (though CoreWar is a little dated). What other games are there involving coding that are fun and challenging that can be used to get someone excited about coding or flex their chops or even learn the basics?

How about RoboCode
You code your tank in Java and let it loose in the 'ring' with other coded tanks. People got pretty into coding strategy, targeting, etc. IBM sponsored it and came up with some nice introductory programming tutorials to get you started.
Here's a great article to get the feel for it:
Rock 'em, sock 'em Robocode!
(source: sourceforge.net)

Uplink isn't so much a coding game, but it is a great game that makes you feel like a hacker.

There's a whole bunch of "drag-and-drop" coding games, where you make a little thing (usually a robot) solve some puzzle by giving it a list of instructions. They're only vaguely similar to actual coding, but they are still pretty fun.
RoboZZle
The Codex of Alchemical Engineering
light-Bot

Not sure if it's considered a "game", but the TopCoder Competitions are fun, and come in various sizes and commitment levels. You can also work on puzzles from the archives for some good programming practice.

The Python Challenge is like those "look at the html source" riddles, but requires a bit of programming to get the answers.

When I was a kid I played "Rocky's Boots", where you had to hook up logic gates to solve puzzles. That had a big impact on my thinking.

Core Wars.

Here's something that allows you to make games and animations: Alice

If you're looking for a board game, you might want to have a look at Robo Rally. In this game 2-8 people are trying to maneuver their robots over the board as quickly as possible, dodging deadly obstacles and trying to shove other people robots into obstacles on the way.
Each game round all players have to "code" the program the robot is going to execute in the next round and then the robots just follow their program. The programs are just five instructions long, but still creating an optimal program can be quite tricky. There usually is very little luck involved, which is why I really like this game.

Similar to Uplink is HackWars. Instead of point and click hacking though, it's multiplayer and you can write your own attack scripts. There's actually an included runtime for writing 2d/3d games and there's a bunch of different places to hook in scripts (for defense, banking, in game website, etc).
Scripting language looks similar to Java.

How about Ai-Board
You play it on your phone/tablet.
It's IDE is built into the game.
It has a built-in node-based visual programming language, whose code-behind is a python-like language.
You write the code, that drives the Ai, that moves the pawns, that plays the game, all still on your mobile device.
YouTube Video: Visual Programming Time-lapse on a mobile device
It comes with quite a few tutorials that introduce the player to programming, genetic algorithms etc, and you get a step-by-step walk-through of all these methods.
It also comes with ready-made scripts that work right out of the box, and are ready for you to copy into your free 'Dev' & 'Test' envs,...
...so that you can tweak them to your heart's content, knowing that you can always revert to the original at any time.
The in-built machine learning engine allows you to
train your AiBot to play the board-game,
play your AiBot against their in-built Ai
play against your own AiBot
breed your AiBot (Genetic Algorithm)
fine-tune your AiBot (Back-Propagation)
...debug your AiBot, and so on.
YouTube Video: Machine Learning is mobile!
Its currently in BETA testing, but soon to be released, and everything described comes for free.
In addition, there are single and multi-player modes as well, but it is primarily a game about coding, coming complete "...with batteries included!"

Project Euler

Feature bloat - how much is too much?

I'm a computer science student designing a project and I've started wondering what are good examples or software, or even hardware that are toeing the line between being feature rich with good usable features for regular users and being too intimidating for new users. Also could anyone recommend any good tips/books for designing good quality applications that are feature rich but not "bloated"?

"Make everything as simple as possible, but not simpler." - Albert Einstein
"Perfection is reached not when there is nothing left to add, but when there is nothing left to take away." - Antoine de Saint-Exupéry
I am not trying to be flippant but these quotes really are the best advice. Simplicity of design should be your goal. Not that achieving simplicity is easy! On the contrary, it is quite difficult but it is possible.
Try thinking about things a bit differently. Rather than
How many things can I add before this becomes bloated?
try
What are the fewest number of features and elements I can include while still providing a superior experience for my users?

Here's a good set of slides from a presentation on the topic: Rescue Princess 2.0.
The first order of business should just be keeping the application easy to use. Beyond that, all I can say is, beware of writing features for an imaginary user: make sure someone actually needs it before you start coding.

As a direct answer to your question: pretty much any Microsoft product. I'm showing my bias here, but Microsoft has a strong tendency to keep their codebase, and add features on top of features until the original functionality of the app is nearly lost beneath mounds of accreted crud.
Look at MS Word, for example; while you can still just open it up and start typing, god forbid if you want to renumber a section of your document while leaving the rest alone. Heaven forbid if you want to generate a Table of Contents that includes references to an Appendix. This sort of stuff is something that is de rigeur for Word Processors, and Word supports it, it just supports it in a way that you cannot get it done without a manual, several cups of coffee, and bandages to stop the bleeding from banging your head on the desk.
Microsoft isn't alone in doing this; this thing tends to happen all the time, with all sorts of products; but they are among the worst offenders, I've found.

1: What do your users need, and want, and
2: Which features will you have time to implement?
Your question is pretty general. Which features constitute bloat? That kind of depends on whether you're writing an antivirus scanner, an OS or a word processor.

There is no clear barrier between "good" and "too much".
However, it depends on what you want to do.
If you're developing a SDK, I recommend splitting your implementation in several small libraries(rather than just one big SDL library, there is the SDL core, SDL_Mixer, SDL_Image, etc.)
If you're developing an application, keep a module-based system and a plug-in mechanism.
That way, new features can be added more easily and bloat can be more easily detected.
You may get to a point where you'll add new features some will consider "great" and others "bloat". Otherwise, your application may reach a point that some will call it "feature-poor" and others will call it "just enough".

This isn't an exact quote, but the idea was something like this:
A piece of software is perfect not when there is nothing more to add, but when there is nothing more to remove.
In essence, the simpler and more to-the-point is a software, the better.
To get examples of good software design, take a look at programs that are popular today. Google applications would be a nice place to look. Skype perhaps. Heh, even StackOverflow. :)
If you want intimidating, go to the world of CAD. Check out for example Blender. That's a freeware 3D designer software. Good tool I'm told, but the UI has so many buttons/panels/menus/etc. that it makes baby bunnies cry. Unfortunately I cannot say if this would be a good example of a "bad" UI. 3D designing is a very complex process and all those tools are probably in the right place. But it's definately intimidating. :)
A bad UI design can often be found with propieritary software that comes with propieritary hardware. Unfortunately I cannot give you any examples from the top of my head.

I always tend to design my projects in a way that they're just skeletons which are as extensible as possible. Limiting factors are performance, complexity or Thirdparty-limitations.
This way you could add additional features after finishing the basic structure. A user could also add his needed features.
This probably does not work very good for GUI-applications which should have a good usability without much configuration, but I'm sticking good with this approach for those libs I develop. (They're used by other coders who like to have a highly modifable piece of software)
It's not very hard to develop an application/lib which is bloated with features. But it is to develop an app which could be easily extended by other developers/users to match their own needs.

Develop a wide-ranging plug-in system so you add and take out stuff at any time. Problem solved. If only that was as easy as writing spaghetti code. ;)

What are the biggest time wasters for learning programming? [closed]

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I've had several false starts in the past with teaching myself how to program. I've worked through several books (mostly C and Python), and end up just learning the syntax without feeling as though I could sit down and actually write a program for myself. When I try to look through the source trees of a project on Codeplex or Sourceforge, I never seem to know where to start reading the code -- the dependencies seem to go in all directions.
I feel as though I'm not learning programming the way it's done "on the street," so I figured I'd take a different approach to asking how a newbie should learn how to code. If you had to learn programming all over again, what are the things you wouldn't do? What did you spend time doing that you now know wasted you weeks or months?

Where I see beginners wasting weeks or months is typing at the keyboard. The computer is very responsive and will cheerfully chew up hours of your time in the edit-compile-run cycle. If you are learning you will save many hours if
You plan out your design on paper before you approach a computer. It doesn't matter what design method you pick or if you have never heard of a design method. Just write down a plan while your brain is fully engaged and not distracted by the computer.
When code will not compile or will not produce the right answer, if you can't fix it in five minutes, walk away from the computer. Go think about what's happening. Print out your code and scribble on it until you believe it's right.
These are just devices for helping to implement the simple but difficult old advice to think before you code.
When I was learning, I solved countless problems on the 15-minute walk from the computing center to my home. Sadly, with modern PCs we don't get that 15 minutes :-) If you can learn to take it anyway, you will become a better programmer, faster.

I certainly wouldn't start by looking at "real" software projects. Like you say, it's too hard to know where to start. That's largely because large projects are more about their large-scale design than about the individual algorithms or about program flow; for one thing, you're probably looking at a complex GUI application with multi-threading, etc. There isn't really anywhere to "start" looking at the code.
The best way to learn programming is to have a problem you want (need) to solve, and then going about solving it. But most importantly, WRITE CODE. When you read programming books, do ALL the exercises. Make sure you did them right. There's no substitute for writing code. No substitute for screwing up and then fixing it.

Stack Over F.. wait no, heh.
The biggest time-sinks for me are generally in respect to "finding the best answer." I often find that I will run into a problem that I know how to solve but feel that there is a better solution and go on the hunt for it. It is only hours/days later that I come to my senses and realize that I have 7 instances of Firefox, each containing at least 5 tabs sprawled out across 46" of monitor space that I realize that I've been caught in the black hole that is the pursuit of endless knowledge.
My advice to you, and myself for that matter, is to become comfortable with notion of refractoring. Essentially what this means (incase you are are not familiar with the term) is you come up with a solution for a problem and go with it, even if there is quite likely a better way of doing it. Once you have finished the problem, or even the program, you can then revisit your methodology, study it, and figure out where you can make changes to improve it.
This concept has always been hard for me to follow. In college I preferred to to write a paper once, print, and turn it in. Writing code can be thought of very similarly to writing a paper. Simply putting the pen to the pad and pushing out whats on your mind may work - but when you look back over it with a fresh pair of eyes you will, without question, see something you will wish you had done differently.

I just noticed you talked about reading through source trees of other people's projects. Reading other people's code is a wonderful idea, but you must read more selectively. A lot of open-source code is hard to read and not stuff you should emulate anyway. So avoid reading any code that hasn't been recommended by a programmer you respect.
Hint: Jon Bentley, Brian Kernighan, Rob Pike, and P. J. Plauger, who are all programmers I respect, have published a lot of code worth reading. In books.

The only way to learn how to program is to write more code. Reading books is great, but writing / fixing code is the best way to learn. You can't learn anything without doing.

You might also want to look at this book, How to Design Programs, for more of a perspective on design than details of syntax.

The only thing that I did that wasted weeks or months was worry about whether or not my designs were the best way to implement a particular solution. I know now that this is known as "premature optimization" and we all suffer from it to one degree or another. The right way to learn programming is to solve a problem, measure your solution to make sure it performs good enough, then move on to the next problem. After some time you'll have a pile of problems you've solved, but more importantly, you'll know a programming language.

There is excellent advice here, in other posts. Here are my thoughts:
1) Learn to type, the reasons are explained in this article by Steve Yegge. It will help more than you can imagine.
2) Reading code is generally considered a hard task. So, it is better to get an open source project, compile it, and start changing it and learn that way, rather than reading and trying to understand.

I can understand the situation you're in. Reading through books, even many will not make you programmer. What you need to do is START PROGRAMMING.
Actually programming is a lot like swimming in my opinion, even if you know only a little syntax and even lesser amount of coding techniques, start coding anyway. Make a small application, a home inventory, an expense catalog, a datesheet, a cd cataloger, anything you fancy.
The idea is to get into the nitty-gritties of it. Once you start programming you'll run into real-world problems and your problem solving skills will develop as you combat them. That's how you become a better programmer everyday.
So get into the thick of it, and swim right through... That's how you'll make it.
Good luck

I think this question will have wildly different answers for different people.
For myself, I tried C++ at one point (I was about ten and had already been programming for a while), with a click-and-drag UI builder. I think this was a mistake, and I should have gone straight to C and pointers and such. Because I'm just that kind of person.
In your case, it sounds like you want to be led down the right path by someone and feel a bit timid about jumping in and doing something by yourself. (You've read several books and now you're asking what not to do.)
I'll tell you how I learned: by doing plenty of fun, relatively short projects, steadily growing in difficulty. I began with QBasic (which I think is still a great learning tool) and it was there where I developed most of my programming skills. They have of course been expanded and refined since that time but I was already capable of good design back in those days.
The sorts of projects you could take on depend on your interests; if you're mathematically inclined you might want to try a prime number generator or projecting 3D points onto the screen; if you're interested in game design then you could try cloning pong (easy) or minesweeper (harder); or if you're more of a hacker you might want to make a simple chat program or file encryption software.
Work on these projects on your own, and don't worry about whether you're doing things the "right" way. As long as you get it to work, you've learned many things. Some time after you've completed a project you may want to revisit it and try to do it better, or just see how other people have done that sort of thing.
Given the way you seem to want to be led along, perhaps you should find yourself a mentor.

Do not learn how to use pointers and how to manually manage memory. You mentioned C, and I spent plenty of time trying to fix bugs that were caused by mixing *x and &x. This is evil...
Find some problem to solve, write or draw a sketch of an algorithm solving the problem, then try to write it. Either use Python (which is much more friendly for beginners) or use C with statically allocated memory only. And use books/tutorials. They offer multiple excercises with solutions, so you can compare yours with them and see other approaches.
Once you'll feel that you can actually write something simple, see some book/tutorial for Object Oriented Design. It's not the best the world has to offer, but it might turn out to be intuitive. If not, check the functional programming (like LISP, Scheme or Haskell languages), or programming in logic (like Prolog). Maybe those will suit you better.
Also - find some mate. A person you can talk to about coding, code maintenance and design. Such person is worth even more than a book.
To all C fans: The C language is great, really. It allows memory usage optimization to the extent impossible in high-level languages as Python or Ruby. The compiled code is also very fast, and is the only choice for RTOS, or modern 3D games engine. But this is not a good entry point for a beginner, that's what I believe.
Oh, and good luck to you! And don't be ashamed to ask! If you don't ask, the answer is much harder to find.

Assuming you have decent math skills try http://projecteuler.net/ It presents a series of problems to solve of increasing dificulty that should be solvible by writing short programs. This should give you experience in solving specific problems with out getting lost in the details of open source projects.

After basic language syntax, you need to learn design. Which is hard. This book may help.

I think you should stop thinking you've wasted time so far-- instead I think you're education is just incomplete, and you've taken a step you're not really ready for. It sounds like the books you've read are useful, you're learning the intricacies of the language. It sounds like you're just not accustomed to the tools you'd use then to package that code together so it runs.
Some books cover that focus on topics like language syntax, design patterns, algorithms and data structures will never mention the tools you need to actual apply that information. These books are great but if its all you've touched I think it would explain your situation.
What development environment are you using? If you're developing for windows you really should be proficient with creating projects, adding code, running and debugging in Visual Studio. You can download Visual Studio Express for free from Microsoft.
I recommend looking for tutorial like books that actually step you through the UI of development environment you are using. Look for actual screenshots with dropdown menus. Look at what the tutorials walk you through, and if its something you don't know how to do consider buying that book. Preferably it will have code you can copy'n'paste in, not code you write yourself.
I personally don't like these books as I can anticipate how to do new things in VS based on how I'd do other things. But if you're training is incomplete from a tools-usage perspective this could move you in the right direction.
It is probably harder to find these types of tutorial books for Python or C development. There is an overabundance of them for .Net development though.

As someone who has only been working as a programmer for 6 months, I might not be the best person to help you get going, but since it wasn't that long ago when I knew next to nothing, its quite fresh in my mind.
When I started my current job programming wasn't going to be part of my job description but when the opportunity came up to do some programming on the side, I couldn't pass it up.
I spent about 1 month doing tutorials on About.com's Delphi section. As much as people diss about.com, Zarko Gajic's tutorials were simple to understand and easy to follow. Once I had a basic knack of the language and the IDE, I jumped straight into a project exporting accounting data for a program called "Adept". Took me a while but I got there...
The biggest help for me was taking on a personal project. I developed an IRC bot in Java for a crappy 2D game called Soldat. I learnt a lot by planning out and coding my own project.
Now I'm pretty comfortable with Delphi Pascal, SQL, C# and Java. I think, once you get the hang of one OOP language, you can learn the syntax of another language, and it gets a lot easier to catch on.

Perhaps start with a small existing project, and find some thing within it that handles some core part of what it does - then with a debugger, step through it and follow what it's doing from the point where you ask it to do that thing for you.
This helps you in a number of ways. You start to better grasp all of the various things that are touched by the code as it attempts to complete its request. Also, you learn invaluable debugging techniques which it seems like far too many developers lack - while you can often eventually discover what is wrong either with repeated printf() (or equivalent) calls, if you can debug you can solve issues an order of magnitude faster.
I have found that conceptually, a great mental model for understanding programming in the abstract is a pattern of data flow. When a user manipulates data, how is it altered by a program for digestion and storage? How is it transformed to re-present to the user in a form that makes sense to them? Fundamentally code is about transformation of data, and all code can be broken down into constructs of various sizes whose purpose is to alter data in one way or another, bugs forming around the mismatch between what the programmer was expecting from the data, how high level libraries the coder is using treat the data, and how the data actually arrives. Following code with a debugger helps you fully understand this transformation in action by observing changes as they occur.

Standard answer is to make something; picking an easy language to do it in is good, but not essential. It's more the working out stuff in your own head, fixing it because it won't work, that really teaches you. For me, this always happens when I try my eternal dream projects (games) which I never finish but always learn from.

I think the thing I would avoid is learning a language in isolated snippets that don't really hang together but just teach various facets of a particular language. As others have said, the really hard and important thing is to learn design. I think the best way to do this is through a tutorial that walks you through creating an actual application, teaching design along the way. That way you can learn why certain decisions are made and learn how to accomplish what's needed to implement the design choices.
For example, I found Agile Web Development with Rails to be a really easy way to learn Ruby on Rails, much better than simply reading a Ruby manual or even poking my way around scattered web tutorials.

Another thing that I would avoid is developing code in isolation, that is, not having people look at it as I go along. Getting feedback from a mentor will help keep you on the right track with respect to the choices you are making and the correct use of language idioms.

Find a problem in your life or something you do that you just feel could be more efficient and write a small solution to it. It might just be a single script but you will gain much more confidence in your abilities when you start to see useful results of your work. You will also be more motivated to finish it as you are interested in using the solution. Start simple and small and then gradually move up to bigger projects.
And as your working on a small project, focus on building everything with quality. I think this is lost on some programmers who feel that their software is more impressive if it contains a ton of features but usually those features aren't well done or usable. If you focus on building quality solutions to real problems you'll be a fantastic programmer.
Good luck!

Work on projects/problems that you already know how to solve partially

You should read Mike clark's article : How I Learned Ruby. Essentially, he used the test framework for Ruby to exercise different elemnents of the languages.
I used this technique to learn python and it was very, very helpful. Not only did i learn the language, but I was very proficient in the test framework for Python at the end of the excercise. Once you have the basics you can start reading code and then working on building some larger project.

How useful is Alice as a learning tool?

I am currently studying and my next subject is 'Programming Using Alice'. Has anyone had any experience using this? And how would you rate it as a learning tool?

Yea, I used it in my AP Java 2 class back in high school. It was fun, though primitive (at that point, I was more interested in advancing my programming capabilites and didn't like ANYTHING that limited what I could do). It is a good learning tool for children and those who are just getting started in programming (i.e. have never programed in any language before). It teaches the basic concepts in a very visual way with immediate results. Its one very good feature is the 3d environment you get to explore. This makes it applicable even if you are developing your programming skills into something more. You can play around with it and make a fairly decent game; I would expect that a chess game is very possible!
In all, I think it is worth while learning if nothing else to say that you've done it. As it has been a while since I last used it, my response may be a bit dated and I apologize if there is something that I said that is no longer true.
Enjoy!

Alice is good tool for students who have had no experience with programming. Simple to the point of being childish, but it gets its point across. Many instructors are raving about how much better the students are understanding programming after using Alice in their 101.
For full disclosure, I have seen Alice used but have never used it myself. My comments come from instructors that I have talked to.

I took a course on Alice, and it really helps you visualize the concept of programming and most important of, the manipulation of classes. But I really don't recommended for universities courses like the one I took because there are a lot more helpful and efficient object oriented software that can help you applying what you learn in programming courses in an easy way and gaining experience at the same time for example in game development and others involving graphics and visual objects...

I had this class recently, and although I have years of programming experience, it was really funny.
Deciding if a language is useful or not is out of the question when it's about learning algorithmic. I remind myself asking the same question about my Turbo Pascal class, 18 years ago. Yeah it's true that I never made a living of it, as for Alice. However it provided me with good bases in algorithmic.
Yes Alice is a good learning tool. You will learn about functions, parameters, variable settings, lists and arrays, and command functions, not to mention loops. And it's an OOP language too, so you will learn that objects have properties that can be manipulated.
These are the basic principles of any modern language, with a fun layer on top of it since you ultimately will animate characters and objects in 3D.