On PHP and Scaling 245
jpkunst writes "Chris Shiflett at oreillynet.com summarizes (with lots of links) a discussion about scalability, brought about by Friendster's move from Java to PHP. Chris argues that PHP scales well, because it fits into the Web's fundamental architecture. 'I think PHP scales well because Apache scales well because the Web scales well. PHP doesn't try to reinvent the wheel; it simply tries to fit into the existing paradigm, and this is the beauty of it.' (The article is also available on Chris' own website.)"
A few things that could lead to scalability (Score:5, Interesting)
Re:A few things that could lead to scalability (Score:4, Insightful)
Re:A few things that could lead to scalability (Score:5, Interesting)
Re:A few things that could lead to scalability (Score:2, Informative)
What is a PHP "server"... it is the combination of Apache and PHP and a request being served. Since the web is stateless with simple session IDs tying things together it's not really necessary to share memory or resources between requests... hence Rasmus Lerdorf's "share nothing architecture."
It doesn't make sense do an olympic-sized web crawling script, and certainly not invoke it in the time of a web requ
Re:A few things that could lead to scalability (Score:3, Interesting)
Re:A few things that could lead to scalability (Score:3, Interesting)
Comment removed (Score:5, Funny)
Re:Gah, no! (Score:5, Funny)
Re:Gah, no! (Score:2)
</sarcasm>
Author seems to live in a vacuum (Score:5, Insightful)
Re:Author seems to live in a vacuum (Score:5, Informative)
The article doesn't mention it, but Smarty [php.net] is an excellent PHP library that implements, among other things, caching. I have used it extensively with excellent results.
Re:Author seems to live in a vacuum (Score:5, Informative)
Personally, I find the lighter weight Savant [phpsavant.com] to be a better choice, since it's straight PHP (No syntax to learn either -- bonus!). That removes the need for Smarty's "compile into php"
step entirely, which has giving me MUCH better performance than when I was using Smarty. IMHO&experience, at least.
(And if you want caching, it can be done at the PHP engine level rather than in your templating engine -- see any of the PHP accellerators out there)
Re:Author seems to live in a vacuum (Score:4, Informative)
But if you are running a site that can use the output caching that Smarty offers and the code is done properly, you will see huge speed increases as you can skip everything in the page including opening a db connection. Which gives very close to flat HTML performance.
As to using PHP accelerators, they don't handle output caching by themselves. You can code your own, but my time is better spent doing other things
Using Smarty and Turck together is pretty impressive.
Re:Author seems to live in a vacuum (Score:2)
But then, how can you conclude a language scales well, other than by comparing it? Java is supposedly used by so many sites that it can be used as a measuring standard. If PHP scales better, it must be great. I think that sounds quite reasonable.
For the record, I like neither language that much. I use PHP every day, but I would rather be using Python or LISP.
Re:Author seems to live in a vacuum (Score:3, Interesting)
It's like comparing MySQL and Oracle; they both do largely the same thing, but Oracle's a lot more advanced and aimed a lot higher. From the article summary, it s
Re:Author seems to live in a vacuum (Score:3, Insightful)
naw.
friendster's load characteristics have to be totally uncacheable, because of how many users they have, and the amount of disparate data sources needed for the pages. no other social networking site has even close to their load.
update a friend ? needs to be instantaneous. what happens then ? just about everyone on the entire system's friend count must change, real-time, with 1st, 2nd, and 3rd degrees. that means every addition/delet
Re:Author seems to live in a vacuum (Score:2)
Re:Author seems to live in a vacuum (Score:2)
It does: the author talks about how PHP forces you to use scalable mechanisms for state management (in contrast to, say, Java).
or the maintence challenge of larger code bases on complex sites
Well, PHP generally requires much less code than Java to get the same task done, so that's another advantage for PHP.
Re:Author seems to live in a vacuum (Score:2)
Nice troll. How many lines of code takes multithreading in PHP? No luck here. How many lines to run in a smartcard? Nop. A Python interpreter in PHP? Niet.
Use the right tool for the problem.
Re:Author seems to live in a vacuum (Score:3, Insightful)
I always tend to think of *accessing data* as where the rubber hits the road in website scalability. Of course, PHP by itself is super-scalable (because each request processing is independant)... but what exactly are you *doing* in that PHP code? If you aren't accessing and displaying data (generally from a database), you've got a pretty unique website.
I don't see much point
Re:Author seems to live in a vacuum (Score:2, Informative)
Personally I use and love both Java and PHP for web apps, horses for courses certainly, but I would be far more comfortable with Java for a large webapp any day.
PHP scales down, too (Score:5, Insightful)
What does this mean? That they don't consume too much in the way of resources, and are very easy to get started with. This puts a dynamic web site within reach of more people, which is a good thing, even if inevitably some of them will, yes, write crappy code. It is another example of the "worse is better" philosophy.
I just wish they had used Tcl or something else already out there instead of creating a language that in and of itself is nothing very exciting, and has been a bit slow.
Not always a good thing... (Score:2, Insightful)
Re:Not always a good thing... (Score:2, Troll)
Re:Not always a good thing... (Score:5, Insightful)
I hate to say it, but the problem exists between keyboard and chair. PHP is not inherently secure or insecure language. It may still have bugs, but those are a function of age and the serious ones have been taken care of. Rather, the problem is in the way people write software using PHP, without necessarily understanding the nature of the platform they are using.
It is not the job of the language to enforce security - it is the job of the programmer.
Re:Not always a good thing... (Score:2)
Well, unless I misparsed the grandparent correctly, it didn't imply that at all; it said "It is not a good thing that there is a short learning curve on PHP"- implication, the ease of use is the problem, as opposed to "PHP is insecure".
Re:Not always a good thing... (Score:2)
Re:PHP scales down, too (Score:3, Funny)
however, if you wrote the same thing about Visual Basic / ASP, you would have been modded a troll.
Another article (Score:4, Informative)
http://www.onjava.com/pub/a/onjava/2003/10/15/p
Working link (Score:2, Informative)
Here's an article from Jack Herrington on PHP's scalability
And here is an actual link to the article [onjava.com].
jsp is a bad idea, but Java is not (Score:5, Informative)
Re:jsp is a bad idea, but Java is not (Score:2, Insightful)
Re:jsp is a bad idea, but Java is not (Score:2)
If so, why should this cause performance problems?
(As an aside, I've run a JSP server in the past on a 100MHz pentium, and after the first use of each page performance was OK, so I'm not sure what the big problem is...)
Re:jsp is a bad idea, but Java is not (Score:2)
Re:jsp is a bad idea, but Java is not (Score:3, Informative)
Re:jsp is a bad idea, but Java is not (Score:2, Informative)
Re:jsp is a bad idea, but Java is not (Score:2)
You are right - I was talking only about model 1. JSPs can be used very effectively in MVC frameworks.
What I was trying to describe was JSP use when Java code is embedded, rather than tag libraries.
Re:jsp is a bad idea, but Java is not (Score:4, Informative)
just as Velocity on it's own would be a bad idea.
Write your buisness logic in plain java, use servlets to manage the flow of control, and to call your java API to create value objects (beans) to place in the request, and then use JSP to format the data.
You only run in to problems if you try to do everything with JSP, which is always a bad idea, just as it's always a bad idea.
and JSP 2.0 is even better with the JSTL expression language built in.
Re:jsp is a bad idea, but Java is not (Score:5, Interesting)
Tapestry for the view, Spring for the control, and Hibernate for the model is a combination hard to beat with php. Sooner or later all these technologies will be used no matter what underlying language.
PHP frontend and Java Backend (Score:2, Informative)
The specification will describe mechanisms allowing scripting language programs to access information developed in the Java Platform and allowing scripting language pages to be used in Java Server-side Applications. JSR 223 [jcp.org]
What's Really Going On Here... (Score:5, Interesting)
Re:What's Really Going On Here... (Score:2)
-friendster programmers don't know how to catch an error in Java, something that Java has plenty ways to do.
-is easy to find where the error is in Java. I've seen lot's of "Warning: MySQL Connection Failed: Unknown MySQL error in
Re:What's Really Going On Here... (Score:2, Interesting)
Re:What's Really Going On Here... (Score:2)
Re:What's Really Going On Here... (Score:3, Informative)
Also, what's "Database.java" -- if it's part of the MySQL/Java interface layer, this would be perfectly appropriate behaviour.
Re:What's Really Going On Here... (Score:2)
Well, we could also argue that you couldn't do that in any language, since MySQL is a daemon and the client libraries will open a connection to the daemon to talk to it...
Even if it were a JNI wrapper around the C libraries, that was not the point of the original poster. The point seems to be that there's a huge monolit
Re:What's Really Going On Here... (Score:2)
Line 8000 - wtf (Score:2)
Confession time: the worst Swing based class I have ever committed has about 4000 lines, but about 2/3 of that is Swing.
Re:What's Really Going On Here... (Score:2)
Re:What's Really Going On Here... (Score:2)
No, as such abstraction layers can cache results, store compiled queries etc.
A few more method calls between your code and the database is going to make no difference whatsoever on modern hardware.
Re:What's Really Going On Here... (Score:2)
I'm not aware of any other way to access MySQL from a Java application.
Definition of Scalable (Score:5, Insightful)
His definition suits him well but it might not be helpful for me.
I might use scalable just to say that an application can easily (with little or no modification) handle 100x more users. This doesn't necessarily mean that the difference in system load varies a minimal specific amount per each extra request. All that matters is that it will work with higher demand. Who cares how or why.
I think scalable can also mean that an app can handle 10,000 users when hosted on a single machine but when put on a cluster of computers it can handle exponentially more users. To me that is a scalable application.
Scalable has no set definition in the contexts of applications.
Comment removed (Score:5, Interesting)
Re:Definition of Scalable (Score:2)
Code scalability also important (Score:3, Insightful)
While this does have more to do with how the code is written, programming languages to contribute to code scalability.
Does PHP promote scalable code?
scalability is a dead issue (Score:5, Insightful)
My big issue with PHP is maintainability- I see it (perhaps incorrectly) as a glorified templating language, which places it on the same evolutionary track as ASP and cold fusion; developers will tend to munge sql calls into the templates, blow off any MVC separation, and get a system that is very hard to keep going for more than a few revisions.
Re:scalability is a dead issue (Score:3, Insightful)
Also, maintainability is not a feature of a language, it's the organization practices of the developer. Java developers are used to throwing files wherever, doing import statements wherever, and once its compiled, it's organized! Well, you have t
Re:scalability is a dead issue (Score:5, Interesting)
Yes, that is tempting. But, conversely, it's a very useful capability for small projects. For larger projects, you just need to ensure you have the discipline not to use the capabilities.
For instance, here [covcen.org.uk] is a site I developed in PHP using a strict model-view separation. There is direct linkage between view and controller and controller and model -- I couldn't be bothered to sort that out for a project of limited size like that one. In a larger project, I'd probably devise some kind of mechanism for that.
You can write unmaintanable code in any language you choose. Discipline is the key.
Re:scalability is a dead issue (Score:2)
If PHP were as unmaintainable as it seems to all of
Re:scalability is a dead issue (Score:2)
True: a lot of big PHP packages look awful and can't be touched without falling apart.
Sadly, the same is true of a lot of big software packages written in other languages.
The solution? Hire better programmers or keep your software small and simple. In fact, the former will likely result in the latter.
blow off any MVC separation
I think it's an article of faith, not fact, that MVC contributes anything to maintainability.
Re:scalability is a dead issue (Score:3, Interesting)
An example was a project I "inherited" a few years back that was written with ASP for the presentation layer, business logic in COM objects, MS-SQL stored procedures for the database calls and MS-SQL for the backend database. It needed three developers to maintain all the different parts, and a simple change like displaying an existing database field on a web page meant changin
Re:scalability is a dead issue (Score:3, Informative)
http://www.php.net/manual/en/ref.sem.php [php.net] -- system V shared memory. See specifically the functions shm_put_var() and shm_get_var().
Turk mmCache (Score:2)
Who know what scales? (Score:3, Interesting)
PHP has a wide support for many RDBMS, APIs and Operating Systems, but it is only a Language. A language doesn't scale, it's the platform that scales.
That's why I see the PHP/Apache/Unix to scale far better than (for example) ASP/IIS/NT: The first platform can run from a PDA to a high-perfomance Minicomputer; The second can run from an I686 (pentium support was removed?) to the best PC-Architecture based computer you can buy. That's the difference: A wide option platform versus a closed option platform.
Probably, the first platform will have perfomance leaks and will not take every perfomance point from the machine it runs within, but its scalability potential resides that it can run in whatever you throw it at. Maybe J2EE or other platforms will run faster on the same hardware than PHP, but PHP will scale there and will be looking shoulder to shoulder to it.
That's why I don't like to valuate Scalability from the "speed" point of view, but the "where it runs" point of view.
Re:Who know what scales? (Score:2, Redundant)
I'm currently running PHP 4.2, a recent Apache 1.3 and Linux 2.4 on a Pentium 100MMX without difficulty.
Re:Who know what scales? (Score:2)
Yahoo. (Score:5, Interesting)
I worked in a small shop developing web apps, and while it wasn't mission critical stuff like banking, it wasn't exactly brainless "dump data from MySQL" stuff either. I was lucky that my boss wasn't picky about languages. But if anyone I work with doubts the power and simplicity of PHP, I usually bring up Yahoo.
IMHO, PHP rocks. It's suitable for pretty much any and all web development. It can be used for quick hacks, or you can code it like a pro with objects and stuff.
Re:Yahoo. (Score:5, Informative)
Yahoo is very much a C/C++ shop first and foremost - PHP is used as a template system (alongside several proprietary systems) to allow easy modification of high level behaviour.
Re:Yahoo. (Score:2)
PHP is not always good enough (was Re:Yahoo) (Score:5, Insightful)
Yes, PHP is excellent for web development. Yes, PHP can scale to even some large web sites. But since the web is still all the rage, this is unfortunately all that many people think about. Where PHP stumbles is when you need to move off the web or when you need to write complex business logic that is not solely driven by a web tier. PHP also fails when you need to integrate diverse transactional resources in an efficient manner. Not all business applications can be suitably implemented in PHP. As examples:
- PHP, by its scripted execute-and-terminate nature, cannot schedule the execution of tasks on its own. So, for example, there is no way to schedule an email to be sent at a specified time. If you need this sort of functionality, you'll have to look beyond PHP to ugly hacks like cron jobs that call PHP. (and then PHP scripts that can automatically modify your cron scripts..) Alternatively, you could write your own scheduler in a different language.
- Somewhat related, PHP is incapable of asynchronous operation. Suppose, for example, that we have a flood of customers placing orders. Our inventory database is fully capable of keeping up with the demand, but credit card processing system is backlogged and this is out of our control. So we cannot give users an immediate response as to whether their payment was accepted upon placing the order. We also don't want to make them wait 5-10 minutes after hitting the "place order" button for a response. The proper business solution is to accept the order, but send the customer an email later if the payment was rejected. This process requires asychronous operation -- queueing of the payment validation requests and possible further action separate from user interaction. PHP has no solution for this scenario or the many others like it and thus we must look beyond the PHP domain.
- PHP is quite weak when it comes to writing a complex business logic layer. This is not to say that it is not possible, but there are no frameworks available comparable to those offered in the Java world (and I'm not just talking about EJB, btw). So this is not a question of languages, but of available tools to do the job efficiently. For example, PHP has no concept of application-level transaction management. (declarative transactions, isolation levels, etc.) Looking towards the cutting edge, it has no support for Aspect Oriented Programming, which is an enormous boon to business logic developers, available in Java, C++,
- PHP is weak on tools for developing the persistence layer. For example, it has nothing comparable to Hibernate, let alone tools for RAD employing UML.
- PHP has no pre-built solutions for caching persistent data, and certainly not objects. Once again, it is possible, but developers are left to roll their own solutions using shm extensions or writing out to the database backend. Using the database can be terribly slow and even the shm approach requires (de-)serialization on script load/terminate. While this sort of thing does not limit scalability, it does limit performance (response times).
- PHP has no means of replicating application state in a cluster other than using the backend database. While this is often of no consequence, some complex business software holds a fair amount of state which needs not be persistent.
- PHP itself cannot reasonably be used to develop non-web clients such as a GUI tool for efficient rapid data entry or greater interactivity, a PDA client, or an embedded device that interfaces with a campus security system. These sorts of clients can talk to PHP scripts via SOAP extensions, but it should be recognized that we have again left the PHP domain to meet these needs and the resulting solution may not be the most efficient.
So in closing, PHP is great for some thing
Re:Yahoo. (Score:3, Interesting)
Scalability and Maintainability go hand in hand (Score:4, Insightful)
PHP will continue to have this problem until someone comes and tells the developers about a nifty invention called 'namespaces'
Some other things that could help: Standard templating for easier separation of design/content from code, a better module architecture that doesn't require me to recompile just to get some new functionality, some nice standard modules that go with that new architecture.
Of course if someone did all of that you'd have Perl and since we already have Perl, I'll stick with it.
Re:Scalability and Maintainability go hand in hand (Score:2)
Namespaces are handly, I'll agree, but I don't see them as a golden-bullet that are impossible to live without.
Let's face it, they don't actually achieve anything that a consistent naming strategy couldn't also achieve.
Re:Scalability and Maintainability go hand in hand (Score:5, Informative)
For the most part though, I would say that PHP is slightly better equipped for web development, just like Perl is better equipped for general scripting tasks... I'm a python man myself though
Re:Scalability and Maintainability go hand in hand (Score:3, Informative)
Your kidding right?
urpmi php-mysql php-pgsql php-curl php-xml php-sockets
service httpd restart
See any "make; make install" commands in there?
How is that not modular?
Nearly everything in PHP is a module (or PHP's term, an extension) that can be installed or removed without recompiling.
Re:Scalability and Maintainability go hand in hand (Score:5, Insightful)
This is particularly funny coming from a perl developer. Perl can become unmaintainable on a small project.
Re:Scalability and Maintainability go hand in hand (Score:2)
What unique attributes of perl do you believe contribute to your claim that perl "can become unmaintainable on a small project"?
I regularly program in C and I would say that C has numerous issues that make readability and maintainability in the large but you rarely see anyone heap this scorn on C.
Re:Scalability and Maintainability go hand in hand (Score:2, Funny)
I bet he heard that from good old Tim Towtdi!
;)
Re:Scalability and Maintainability go hand in hand (Score:2)
In the Real World, you rarely get to write the web app yourself; instead, you get to add features/clean up/fix the web app that the Other Guy wrote. The Other Guy invariably doesn't know what he's doing, nor did he plan well at the beginning. Knowing this is the case, I would much rather he were using an environment that forces some amount of good design on him, since that will save me time and f
Implementing a site in PHP... (Score:4, Insightful)
Re:Implementing a site in PHP... (Score:3, Informative)
This also allows me to move code blocks between different platforms without issue. It also al
The reason (Score:2, Insightful)
rebuttal (Score:4, Informative)
I will start with mandatory links to the great series of articles that Ace's Hardware ran, describing their server scenario and their migration from PHP to Java/J2EE:
The PHP Scalability Myth starts of by defining three types of server architectures. The first, two-tier, and the last, logical-three-tier, are the same conceptually (there is the slight distinction between whether display and business logic code is "mingled", but this is typically not a performance issue, but just an aesthetic or design issue). This two-tier/logical-three-tier architecture is the only one PHP supports natively. The article then proceeds to compare a two-tier PHP architecture against the most elaborate full three-tier Java architecture, which is used rarely in practice, and extremely rarely in the same domain in which a PHP solution is feasible. Instead of comparing apples and oranges (if PHP supported a full three-tier architecture, I would imagine two-tier PHP vs. three-tier PHP would have the same performance discrepencies), let's simply compare the only architecture PHP supports natively, two-tier, against JSP talking directly to a database, as this scenario is the most analogous to the PHP one. Let's also discard any caching as again this is something that Java handily accomodates but is not natively (or at least easily) available in PHP due to lack of state. And let's assume the database is the largest bottleneck.
The article states:
I'm not sure what "stub" the article is referring to, but I will assume it means an Apache module which talks a "native" protocol to the servlet engine. The first such module was mod_jserv, which could run the servlet engine both in-process and over a compact protocol called AJP (Apache Java Protocol), which represents essentially a pre-parsed HTTP requests. This module, as well as the AJP protocol itself has gone through severel revisions, from mod_jk, to mod_jk2. I cannot quite recall, but I think some version of mod_jk might have lost the ability to run in-process. Every other version, including the most current, can, if I recall correctly. This is besides the point, because as far as I know, AJP always has been a trivial performance overhead (I believe recent versions can run over Unix domain sockets). In fact, Apache is routinely used in production as the front-end web server, instead of the built-in servlet engine web server, simply because it is faster at serving static content, and that the AJP protocol is negligable. If the "stub" referred to in the quote is not the AJP module, then this may not be relevant, nevertheless AJP has always been highly efficient and typically negligable with regard to performance (the same typical connection min/max/idle count configurations apply as do to Apache itself).
The article goes on to proclaim the complexities of caching and data object persistence which we have eliminated from our comparision. Let's move on to the real bottleneck - the database. The article says "PHP's connectivity to the database consists of either a thin layer on top of the C data access functions, or a database abstraction layer called PEAR::DB. There is nothing to suggest tha
Re:rebuttal (Score:5, Informative)
I'm not sure what you're on, but you can build however-many-tiers-you-like applications with PHP. In fact, PHP supports a number of technologies specificallly designed to communicate with additional tiers, including CORBA, JavaBeans and SOAP.
Let's also discard any caching as again this is something that Java handily accomodates but is not natively (or at least easily) available in PHP due to lack of state
PHP supports persistent state through shared memory blocks trivially. The implementation of data caching schemes that use this feature is not hard.
17 child threads attempt to connect, one will not be able to. If there are bugs in your scripts which do not allow the connections to shut down (such as infinite loops), a database with only 32 connections may be rapidly swamped
Why would you limit your database to serving fewer connections than you have limited your web server to?
PHP supports an option to kill runaway scripts and reclaim their resources after a time limit has elapsed, which handily prevents the infinite loop problems mentioned.
Ok, so now we have a bunch of "persistent" connections that hang around with the process. How long do they hang around?
Until the database closes them or the PHP server process is killed.
What if two threads in the same process want to use a connection?
The connection is locked from the moment a thread acquires it (using the *_pconnect function) until the script using it terminates.
In the worst case, persistent connections make your problem much much worse, because now you have many more connections open to your database.
What does an inactive open connection to the database cost? Not very much, in my experience.
Your arguments have a little merit, but please try to do your research before ranting about a system.
Re:rebuttal (Score:2)
kashani
Why the database should have fewer connections (Score:2)
I always wondered about that in application design. Just recently I talked with a former software architect from IBM and he gave me an answer that may make some sense. It still feels a little counter-intuitive to me, so any corrections would be welcome.
The answer is basically a resource management issue if I remember correctly. You want to manage the load on your database servers so it stays relativ
Real world examples? (Score:4, Interesting)
I think to settle this debate is a possible real-world example. Look at the story on the Jboss Nukes Project [onjava.com]. It explains the CPU utilization and speed of the PHP version and how moving to a J2EE implementation decreased the wait times dramatically.
Its difficult to argue with facts.
Re:Real world examples? (Score:2, Interesting)
We know that the PetStore J2EE sample/reference application is ~10 times slower than a sample
We also know that the JBOSS people were sending false statements last year using anonymous accounts (around the time when the mentioned article was written).
So I would be very careful to state that "a J2EE implementation decreased the wait times dramatically".
I don't think so, not at all!
I can summarize it all (Score:2, Insightful)
2. Java scales well.
3. Friendster couldn't devlop a scalable J2EE application, so they switched to PHP.
4. WHat will Friendster switch to when they can't develop a scalable PHP application?
Re:I can summarize it all (Score:2)
Scalability is Not a Language Feature (Score:4, Interesting)
Scalability depends on how you write your code. If your algorithms are good, your system will scale, and if they aren't, it will not. Any language that doesn't let you write good algorithms cannot be expected to be generally useful, but I think neither PHP nor Java fall in that category.
Finally, I think scalability is really not what's important, but rather performance. When developing tailor-made applications, I only care if they requires more or fewer resources for the number of requests they actually get, not for higher or lower loads. Of course, for libraries, operating systems, etc. the argument is different.
Scalability has little to do with language (Score:4, Informative)
- The skill of the developers implementing the system
- The foresight of the original plan/architecture design
- Understanding of where bottlenecks/growth problems will occur
Any project that doesn't plan the scalability in from day one will likely struggle to fix the problem when scalability does become an issue.
IMHO scalability is a design and architectural problem, the language used (within reason) makes no difference- it's the quality and structure of the design itself which will make or break the system.
Re:Maintaining State (Score:2)
Re:Maintaining State (Score:2)
The problem with PHP in this area is that it doesn't have the flexibility Java does in scoping serverside objects. Java has page, request, session and application scopes. PHP's limitations make it difficult to implement MVC frameworks that are as powerful as say, Apache Struts.
Re:Maintaining State (Score:3, Informative)
As your application scales beyond one server, you then need to find a way to share your session between servers. This can be done in PHP via NFS with the default file based session driver (I think sourceforge does this), or with a database session dr
Re:Maintaining State (Score:2)
And why would you want to do such a thing? Just tie each session to a home server and redirect the user to s155.mysite.com when he/she logs in. For some tasks it's better to keep state in memory, for some database is the correct solution. I don't see how using a language with only one option is an advantage.
Re:Sorry buddy... (Score:2)
Re:Sorry buddy... (Score:2, Insightful)
JavaBeans are great in that they're an architecture to communicate through multiple levels and allow for separate tiers. But to think that the same thing can't be done in PHP is foolish. PHP is about keeping the language simple only giving the developer the tools he needs to get work done; making easy things easy, and hard things easier.
I've written a syste
Re:Sorry buddy... (Score:4, Informative)
See their explanation on why they use PHP [yahoo.com]
Re:Let's find out. (Score:2, Informative)
One year of PHP at Yahoo [yahoo.com]
Making the case for PHP at Yahoo [yahoo.com]