Is it just me or are most colleges teaching Java instead of C++ these days? I feel like I've been missing out with having zero classes teach or use C++ at all.
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I've discussed this with my professors. I've discussed it with people in the industry. I've even discussed it online, and if that's not definitive, I don't know what is. I believe it comes down to 3 things. 3. Industry pressureThere's a lot of industry pressure to produce students who are experienced with Java. Companies are using Java a lot these days, so they feel the best way to get great Java programmers is to have universities teach Java. Unfortunately, the concentration on Java has been to the detriment of the students. By giving students so much exposure to Java, they've reduced the exposure to other languages. The result is that most people who graduate with a computer science degree are not proficient in any low-level language (C, C++), nor are they proficient in any theory-based language (Haskell, Lisp). Also unfortunately, it turns out that the industry is wrong. What they actually want are good programmers (code grinders are not hard to come by). Good programmers can use Java without any problem. The concentration on teaching Java has simply made it less common for student to be exposed to non-Java concepts. And it's really hard to be a good programmer if all you know is Java. Hence, the concentration on Java may actually be causing a decline in the number of good programmers being graduated. 2. Belief that high-level is betterThere's a fairly pervasive belief in computer science that it's better to teach students high-level concepts than to teach them low-level details. Memory is a low-level detail. Pointers are low-level. Strings are (sadly) low-level. Objects are high-level. Object-oriented programming has become the ultimate goal. With this mindset, it's easy to see that it's more important to understand the "concept" of a linked list than to understand the implementation. Sure, we have students implement simple linked lists. But they do it in Java, where memory is free and pointers are crippled. We also give them two weeks and enough reference material to cut and paste 99% of it. The end result is that many students don't really understand linked lists, which is why you'll see them two years later fetching every element of a linked list via a for-loop and the 1. Declining enrollmentComputer science departments are scared to death about the falling CS enrollment. They got really spoiled during the .com bubble, and forgot that they are, in essense, a science. Their enrollment isn't supposed to match the English school. It's supposed to match Physics. Since the bubble burst, there's been an enormous push at all levels of academia to keep enrollment high and to keep the graduation rate nearly as high. This means that they've knowingly simplified the curricula to keep from scaring students off. They really, really want to seduce people into computer science, so they are doing everything they can to hide the ugly details of the field. That means beginning courses use easier languages. It means that the students aren't graded, or pushed, as hard. It means that they have dumbed it down, because they don't know what else to do. They are afraid to push people out of the field, because they can't get enough people to replace them. The end result is that the entire field gets watered down. Frankly, I don't envy computer science departments. On the one hand, I do think the quality of programmers would rise if they'd just push really hard at first. It would weed out people early, and allow them to raise the bar for the rest of the students. On the other hand, I think if they pushed harder, they would cause enrollment to plummet. This would result in a backlash from the university, from the industry, and from the government. No one wants enrollment to drop, but no one has come up with a reliable way to increase enrollment. So they teach Java, and pray that most students don't quit. |
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I think it's about levels of abstraction. Java is generally taught as an introductory course because as an introduction students do not need to know about things like memory management or pointers. Over a degree these abstractions are given more detail and students can begin to understand where abstractions leak. |
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I just finished four years at Virginia Tech as a Computer Science undergrad. My languages in coursework went as follows:
All things considered, I think it's a great way to go about it. I learned object-oriented from the ground up, without a lot of language syntax (I'm looking at you, C++, and your pure virtual templated function syntax); I learned pointers and detailed memory management once I was comfortable with basic object-oriented principles, and learned to blow my foot off with C in OS. Working now on OS X and iPhone applications using Objective-C and Cocoa, I feel completely comfortable handling high-level object abstractions in Cocoa, and handling memory with retain-release memory management in Obj-C. |
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I also think it's a case of Java has an ability to quickly bring forward the visual side of programming, of getting an app that really does something visually for the student to experience. C/C++ and a console app, just doesn't set most people's heart buzzing. Granted C and derived languages can do visuals pretty easily, but Java just does it faster. In talking with teachers/professors at my school a lot of them said that the first CS course was to get kids hooked on programming, and a slick app is a really easy way to do that. |
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The reason that first comes to mind is that schools are out to teach CS rather than 'programming'. Java was chosen at my former school because it provided an easy way to start doing some real work quickly with regards to data structures and algorithms, while abstracting away the messy details of how a computer actually works that might be too much all at once for a first year student. If you're a professor, would you rather spend the bulk of your student's time trying to get them to really understand a concept such as node manipulation in a B-Tree, or would you prefer they rip their hair out on top of this once pointers become involved? Java also provides a nice bridge to other similar syntax languages in classes that are 'closer to the metal', such as compilers or OS. On top of all of this, the java sdk is free for students to download, and there are popular tools such as Eclipse that are also free and will provide a uniform experience regardless of what platform their home machine is running on. |
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Colleges believe that Java is easier to learn and easier to teach. There is also a push to give students "real world" experience and in the "real world" Java Programming ability, regardless of real value, is generally considered to be more valuable to C++ programming ability. I don't claim that this common belief is right, but it is prevalent among project managers and interviewers. |
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Having spent a lot of time programming in both C++ and Java I would say that it is because people recognise, consciously or unconsciously, that Java has lower accidental complexity than C++. Put simply, it is easier to get more done with fewer lines of code and that helps when trying to teach new concepts. |
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I think it makes perfect sense to teach Java. What would the alternative object-oriented language be? C++? That's a tough row to hoe if you've never programmed before. Would C# be considered a worthy alternative now? Why would that be any different from teaching Java? Java's a perfectly defensible balance between rigor and preparedness for work after university. That should not be the only language that a student is exposed to. Certainly C, Lisp or Scheme, a functional language like ML, Haskell, or F# ought to be included in the curriculum. Python gives a nice mix of things and has some wonderful libraries. I would consider it an excellent choice. I'd also say that exposure to a real data structures and algorithms class, numerical methods, compilers, operating systems, etc. should be an integral part of the curriculum. The original question implies that someone is getting a computer science degree by simply learning the Java API and doing a few class hierarchies with Animal or Shape at the root. If that's the case I would object as well, but I don't believe it's true. Didn't I hear Jeff Atwood say on a recent podcast that mashing up different bits was what modern programming was all about? Is Joel complaining about Jeff Atwood's skills because he's using .NET and not Scheme or ML or any of the harder languages that he had to suffer through back when he was going to Yale? Joel's citation is five years old now. I'm not sure that it's 100% pertinent anymore. He sounds like he's turning into an old guy grousing about how easy young kids have it today. |
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I think that demand from industry has played the biggest role. That is to say, demand from industry, filtered through the university bureaucracy, and mixed with pressure to keep up graduation rates. Java is the easy choice. It's not as hard to pick up as C, it can't be called 'too academic' the way functional languages often are, but it feels ever so slightly more hardcore, than say, PHP. Personally I'd wish that my first year class (I'm in third) had been taught in Scheme, but I can just play with that on my own. |
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It's been that way for quite a while; many of the Universities here in Australia teach Java over C++ because it's more mainstream - and modern. Mind you, when I went to Uni I got to do two semesters of COBOL and only one of C, so... Mainstream means that having learned Java, it's a skill you can take out into the real world and apply to a corporate job. C++ is rarely used in greenfield development nowadays, replaced by Java J2EE. Modern is desirable because things like resource management - memory handing et al - are the kinds of things that ought to be handled by the language, not the programmer. Programmers ought to be solving problems, not ensuring that every new is matched by a delete. That kind of argument is persuasive to the Lecturers who set syllabuses. So I put it all down to pragmatism. |
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As a student from a Java school (mostly), I'd say any student that's only learned a high-level language is going to be fine, as long as he's only working in high-level languages. To draw a terrible auto-mechanic analogy, you wouldn't take an engineer that's been working on tractor engines all his life, show him a Porsche engine and expect him to be able to service it (unless he happened to have a Porsche at home that he tinkers with). (In other words, if you're hiring for a C/embedded/C++ position, don't expect a pure-Java student that doesn't know any low-level languages to be what you're looking for.) On a side-note, there are definitely fields of study within CS where low-level languages are more of a hindrance than a help. "Why is my neural network segfaulting?" (We wasted more time in our AI course debugging segfaults than actually learning AI concepts.) On the other hand, knowing what I do from my schooling (C/Prolog/Haskell, some C++) has made me a better programmer overall (via different ways of thinking about things, more knowledge of what the computer's actually doing, ability to program efficiently, etc.). edit: If I would push for anything, it'd be for a bigger focus on 'pure' functional languages. Haskell is a complete brain-bender when you're learning it, but it will change the way you approach any programming question. edit 2: @Breton - yeah I got a bit offtopic there. The stated reason we were given for "Why Java?" was so they could focus on concepts and algorithms, rather than having to get stuck into the nitty-gritty of a lower-level language. The more cynical side of me suggests that it was so they could turn the washout rate into 25% first year, 25% second year, rather than having 50% of people failing an 'entry-level' course (my university still jammed C down our throats in second year and onwards). |
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The only languages I was "taught" in school were Pascal (this was 20 years ago) and 80x86 assembler. Every other language we used in school, we taught ourselves. Java is a reasonable choice for an introductory programming course, but students who don't learn anything else are going to be at a disadvantage when they look for jobs after school. |
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This article by Joel Spolsky, one of the creators of stack overflow, addresses your question pretty well: |
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I was at the University of Kent in 1997 when they switched to Java as the primary teaching language (from Modula-3). I believe Kent was the first university in the UK to do so (it subseqently became the the first Sun-certified Java Campus in Europe). It should be noted that, in a gesture completely unrelated to the switch, Sun Microsystems donated a shedload of hardware to the computing laboratory. |
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FWIW, UC Berkeley (currently) and MIT (at least in the past) used functional programming languages, which I believe is the best way to go. I would argue, as would Abelson and Sussman (both experts in the field of computer science education), that the use of a language like Scheme (a sort-of dialect of LISP) allows for a strong understanding and a strong knowledge retention. From my experience and those of my colleagues, students who complete the "Structure and Interpretation of Programs" book by Abelson and Sussman are at a point where they can learn the basics of any programming language in a weekend, and a new paradigm in under a week (again, anecdotal, but I currently know 11 or so programming languages, and before I took that class I essentially knew no languages). Also, why do you believe that C or Pascal are of pedagogical value? Pascal has nice pedagogical features, C is rather abstruse for the beginning programmer IMO, and the syntactic hurdles can cause interference with the learning curve. I would be very interested in your motivation for advocating the teaching of Pascal and C, as I do research in computer science and math education, and new pedagogical theories, from the layperson or research scientist (in education) are always fascinating to me! |
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First of all, don't take a course that is only meant to teach you a language. Unless it's a completely different way of thinking from what you're used to, it'll be a big waste of time. Take courses that focus on algorithms and the like. If the material can't be applied to another language, then it's practically useless in the long run. I imagine that the reason schools choose Java is because it frees them from having to talk about pointers. I could see that making the job much easier. |
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Java is, in a sense, easier to learn because it hides pointers from the programmer. It allows newer programmers to easily write programs that have dynamic memory for assets such as text, graphics, and input, unlike C++ where memory must be handled by hand or by using a smart pointer, which beginners may not know exist until they find them. A second reason is that companies are writing programs in Java because of the easier learning curve which produces a larger pool of programmers to hire. Java will also run on any machine that has a JVM - Windows, Mac, Linux, and many cell phones as well. Write it once, run it everywhere! However, there is a niche where the lower level capabilities of C++ comes in handy - embedded systems programming. Many such devices have memory mapped IO that cannot be accessed without using pointers, thus rendering the higher level languages nearly unusable. In the end though, it should really come down to using the correct tool for the problem. |
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One answer is that Java has a less severe learning curve than Java, so there aren't as many syntactical and other gotchas in the way before you can get to learning the concepts. I'd also say that C/C++ now occupy the space assembly language occupied 10-15 years ago, and Java/C# now occupy the space where C/C++ were. |
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As a school student in the UK looking at Universitys to go to for my BS, I have talked to professors a bit about it, as well as having talked to uni students. Last thing I heard (Southampton, which is in the top 10 in the UK give or take) is that it was because it was one of the standard industry languages. Sort of makes sense, given how many Haskell jobs are there compared to Java. University's are also becoming a lot closer to industry, as most into lectures to CS departments always has a "We are working with IBM, Microsoft etc" or these recruiters come looking from company x. It doesn't mean they don't teach things like Haskell, C, Prolog etc, they just most teach it first. Any competent person walking out of Uni with a BS in CS should be able to pick up any language given to them without to much difficulty, I don't think it matters what language you start people with. There will always be and have always been the bad, average and good. The good got a 1st and have no problems with pointer and recursion problems, which are the major things that Java doesn't teach. Interestingly Newcastle (UK) is now starting with JavaScript next year, rather than Java. I haven't yet got around to asking why, but I would love to know the answer. The side that supports your arguments that it is dumming down students is that I was talking to a 3rd year student (I think she got a 2-1) who I don't think had done any progrmming before she entered university who had said she had done her final project in Java because "it allowed her to create nice GUIs", which didn't say much for experience in other languages. (It wasn't a bad university either). |
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Just my guess for the broader appeal of Java:
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I'm old enough to have used assembly first (1Mhz 8080) and then Pascal (2Mhz 8085). At that point, Pascal was an academic and an industrial language. IMO, the market moved to C on the basis of benchmarks. Run-time checks cost, and at a few MHz, matter. At that point schools still liked the academic roots of Pascal, and the run-time checks, but what were they going to do at the OO transition? I don't remember a widely supported OO-[oops,pascal] standard. Coming into this Java had some obvious strengths. On the technical side it was both object oriented and multi-threaded. On the pragmatic side it was freely available and fairly cross-platform. And there are jobs for it, as there were for Pascal way back when. |
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I'd imagine better corporate uptake, better OO support and all round better exposure. |
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It depends on the University. I think teaching core concepts is the most important part though: Java is probably a better language to teach programming/OOP core concepts with. C++ has lots of idiosyncracies that you have to learn about (or maybe less idiosyncracies and more that it's 'pure OOP'?), which would get in the way of the teaching. That said, the University I'm attending started with C as the basic language and uses C++ to teach OOP. Java's in there somewhere though. |
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As a few other people have commented, I personally believe the reason many universities are going with Java is that is fairly easy to pick up and learn, allowing the professors to focus more on the theories and concepts behind our field. While I understand people arguing for universities to teach more languages, it takes something away when the student has learn syntax. If they know the concepts and ideas, they should be able to pick up just about any language. I also think that those students that want to be exposed to various languages, can easily do so on their own. Just my two cents (although slightly slanted since the University I attended mainly taught Java also). |
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Here at the University of Colorado at Boulder, we use Python in the first half of the first CS course and C++ for most of the rest. I am glad that I am expected to deal with a systems-level language for the core courses like data structures and algorithms, having programmed in Basic, C, Java, C#, and others. Some more specialized classes like Operating Systems also deal a bit with x86 assembly. I asked one of the professors about the language choices, and he talked about the following (paraphrased):
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My first programming class was PDP 11 assembly. We learned the mechanics of memory management, pointers, and the difference between stacks and heaps. After that class it made you appreciate all the stuff going on when you made a function call, pushing onto the stack input parameters and the return address, etc. |
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As a general tip I think when looking for colleges for Computer Science you should look less into what languages each of the classes are based on, and instead what those classes cover. Ask a recent graduate if they feel they could pick up any language within a short period of time, and if the answer is yes then they most likely got a proper CS education. I attended Ohio University from 2000-2004 and with the exception of an entry level pascal class it was all C and C++. It was most important that we learned how to program, use good practices, and solve problems. Syntax of different languages should be of little concern once you have a Computer Science degree from a solid curriculum. I have been a Java engineer for 4 years now. |
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When I taught C.S., we taught Basic at the intro level, then Pascal. The main reason was ease of teaching. We shied away from C because, with very inexperienced programmers, there were too many things to explain, and too many ways to shoot yourself. C++ suffers from the same issues. That is not to say C or C++ are bad at all. Personally I prefer them. But as a teacher, do you really want to be trying to explain to 18-year-old Suzy or Sam the difference between a character array and character pointer, or what a null pointer is, or even what a pointer is? As a teacher you prefer a "nanny language". |
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Talking with the professor at my current institution of higher learning who pioneered our migration from C++ to Java several years ago was rather enlightening. His staunch belief is that desktop programming is dead and everything is moving to the web where J2EE, JSP etc. tend to be major players. Hence to forth, students need to be preparing to go write web side code and java apps instead of messing with C++, pointers, memory leaks etc. After all, if it's a common data structure Java already has it built in. At least, that's why we switched from C++ to Java. |
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