Each function is documented for quick reference, knowing how to read and understand the manual will make using PHP much easier. Rather than relying on examples or cut/paste, you want to know how to read function definitions (prototypes). Let's begin:
Prerequisite: Basic understanding of types: Although PHP is a loosely typed language, it's important to have a basic understanding of types as they have important meaning.
Function definitions tell us what type of value is returned, let's use the definition for strlen() as our first example:
strlen (PHP 3, PHP 4 >= 4.0.0) strlen -- Get string length Description int strlen ( string str ) Returns the length of string. |
Table M-1. Explanation of a function definition
Part | Description |
---|---|
strlen | The function name. |
(PHP 3, PHP 4 >= 4.0.0) | strlen() has been around in both all of PHP 3 and PHP 4 |
int | Type of value this function returns, which is an integer (i.e. The length of a string is measured in numbers). |
( string str ) | The first (and in this case the only) parameter/argument for the function strlen() is named str, and it's a string. |
We could rewrite the above function definition in a generic way:
returned type function name ( parameter type parameter name ) |
Many functions take on multiple parameters, such as in_array(). Its prototype is as follows:
bool in_array ( mixed needle, array haystack [, bool strict]) |
What does this mean? in_array() returns a boolean value, TRUE on success (the needle was found in the haystack) or FALSE on failure (the needle was not found in the haystack). The first parameter is named needle and it can be many different types, so we call it "mixed". This mixed needle (what we're looking for) can either be a scalar value (string, integer, or float), or an array. haystack (the array we're searching in) is the second parameter. The third optional parameter is named strict. All optional parameters are seen in [ brackets ]. The manual states that the strict parameter defaults to boolean FALSE. See the manual page on each function for details on how they work.