What's the equivalent function in PHP for C plus plus "set" ("Sets are a kind of associative containers that stores unique elements, and in which the elements themselves are the keys.")?
There isn't one, but they can be emulated.
Here is a achieve copy before the link died.. all the contents
A Set of Objects in
One of my projects, QueryPath, performs many tasks that require maintaining a set of unique objects. In my quest to optimize QueryPath, I have been looking into various ways of efficiently storing sets of objects in a way that provides expedient containment checks. In other words, I want a data structure that keeps a list of unique objects, and can quickly tell me if some object is present in that list. The ability to loop through the contents of the list is also necessary.
Recently I narrowed the list of candidates down to two methods:
Use good old fashioned arrays to emulate a hash set.
Before presenting the benchmarks, I want to quickly explain the two designs that I settled on.
Arrays emulating a hash set
The first method I have been considering is using PHP's standard array() to emulate a set backed by a hash mapping (a "hash set"). A set is a data structure designed to keep a list of unique elements. In my case, I am interested in storing a unique set of DOM objects. A hash set is a set that is implemented using a hash table, where the key is a unique identifier for the stored value. While one would normally write a class to encapsulate this functionality, I decided to test the implementation as a bare array with no layers of indirection on top. In other words, what I am about to present are the internals of what would be a hash set implementation.
The Goal: Store a (unique) set of objects in a way that makes them (a) easy to iterate, and (b) cheap to check membership. The Strategy: Create an associative array where the key is a hash ID and the value is the object.
With a reasonably good hashing function, the strategy outlined above should work as desired.
"Reasonably good hashing function" -- that was the first gotcha. How do you generate a good hashing function for an object like
One needed look far for a such a function, though. It turns out that there is an object hashing function in PHP 5. It's called
For example, we an generate an entry like so:
In the example above, then, the hashcode string is an array key, and the object itself is the array value. Note that since the hashcode will be the same each time an object is re-hashed, it serves not only as a comparison point ("if object a's hashkey == object b's hashkey, then a == b"), it also functions as a uniqueness constraint. Only one object with the specified hashcode can exist per array, so there is no possibility of two copies (actually, two references) to the same object being placed in the array.
With a data structure like this, we have a host of readily available functions for manipulating the structure, since we have at our disposal all of the PHP array functions. So to some degree this is an attractive choice out of the box.
The most import task, in our context at least, is that of determining whether an entry exists inside of the set. There are two possible candidates for this check, and both require supplying the hashcode:
Check whether the key exists using array_key_exists(). Check whether the key is set using isset(). To cut to the chase, isset() is faster than array_key_exists(), and offers the same features in our context, so we will use that. (The fact that they handle null values differently makes no difference to us. No null values will ever be inserted into the set.)
With this in mind, then, we would perform a containment check using something like this:
Again, using an array that emulates a hash set allows us to use all of the existing array functions and also provides easy iterability. We can easily drop this into a foreach loop and iterate the contents. Before looking at how this performs, though, let's look at the other possible solution.
The second method under consideration makes use of the new
The Goal: Store a (unique) set of objects in a way that makes them (a) easy to iterate, and (b) cheap to check membership.
The Strategy: Instantiate an object of class
Creating a new SplObjectStorage is simple:
Adding objects is done with the
It should be noted that attach will only attach an object once. If the same object is passed to
Checking for the existence of an object within an SplObjectStorage instance is also straightforward:
Now that we have taken a look at the two candidate data structures, let's see how they perform.
Anyone who has seen Larry (Crell) Garfield's micro-benchmarks for arrays and
My testing environments are:
An iMac (current generation) with a 3.06 Ghz Intel Core 2 Duo and 2G of 800mhz DDR2 RAM. MAMP 1.72 (PHP 5.2.5) provides the AMP stack. A MacBook Pro with a 2.4 Ghz Intel Core 2 Duo and 4G of 667mhz DDR2 RAM. MAMP 1.72 (PHP 5.2.5) provides the AMP stack. In both cases, the performance tests averaged about the same. Benchmarks in this article come from the second system.
Our basic testing strategy was to build a simple test that captured information about three things:
The amount of time it takes to load the data structure The amount of time it takes to seek the data structure The amount of memory the data structure uses We did our best to minimize the influence of other factors on the test. Here is our testing script:
The test above is broken into four separate tests. The first two test how well the
There are two things worth noting about the test above.
First, the object of choice for our test was a
That said, after observing the outcome, we repeated the test with basic
The second thing worth mention is that we used 100,000 iterations to test. This was about the upper bound that my PHP configuration allowed before running out of memory. Other than that, though, the number was chosen arbitrarily. When I ran tests with lower iteration counts, the
So how did these two strategies fare in our micro-benchmarks? Here is a representative sample of the output generated when running the above:
Averaging this over multiple runs,
Not much different. Even adding arbitrary data to the object we stored does not make a difference in the time it takes for the
Our conclusion is that
As a result of these findings, I'm much less inclined to default to arrays as "the best choice" simply because they are basic data types. If the
Thanks to Crell for his help, and for Eddie at Frameweld for sparking my examination of these two methods in the first place.
There is no built-in equivalent of
You can use arrays "like" sets, but it's up to you to enforce the rules.