The answers given so far are excellent. I'm only providing another to highlight that a stream is not a sequence of bytes or specific to a programming language since the concept is universal (while its implementation may be unique). I often see an abundance of explanations online in terms of SQL, or C or Java, which make sense as a filestream deals with memory locations and low level operations. But they often address how to create a filestream and operate on the potential file in their given language rather than discuss the concept of a stream.
As mentioned a
stream is a metaphor, an abstraction of something more complex. To get your imagination working I offer some other metaphors:
- you want to fill an empty pool with water. one way to accomplish this is to attach a hose to a spigot, placing the end of the hose in the pool and turning on the water.
the hose is the stream
- similarly, if you wanted to refill your car with gas, you would go to a gas pump, insert the nozzle into your gas tank and open the valve by squeezing the locking lever.
the hose, nozzle and associated mechanisms to allow the gas to flow into your tank is the stream
- if you need to get to work you would start driving from your home to the office using the freeway.
the freeway is the stream
- if you want to have a conversation with someone you would use your ears to hear and your mouth to speak.
your ears and eyes are streams
Hopefully you notice in these examples that the stream metaphors only exist to allow something to travel through it (or on it in the case of the freeway) and do not themselves always poses the thing they are transferring. An important distinction. We don't refer to our ears as a sequence of words. A hose is still a hose if no water is flowing through it, but we have to connect it to a spigot for it do its job correctly. A car is not the only 'kind' of vehicle that can traverse a freeway.
Thus a stream can exist that has no data travelling through it as long as it is connected to a file.
Removing the Abstraction
Next, we need to answer a few questions. I'm going to use files to describe streams so... What is a file? And how do we read a file? I will attempt to answer this while maintaining a certain level of abstraction to avoid unneeded complexity and will use the concept of a file relative to a linux operating system because of its simplicity and accessibility.
What is a file?
A file is an abstraction :)
Or, as simply as I can explain, a file is one part data structure describing the file and one part data which is the actual content.
The data structure part (called an inode in UNIX/linux systems) identities important pieces of information about the content, but does not include the content itself (or a name of the file for that matter). One of the pieces of information it keeps is a memory address to where the content starts. So with a file name (or a hard link in linux), a file descriptor (a numeric file name that the operating system cares about) and a starting location in memory we have something we can call a file.
(the key takeaway is a 'file' is defined by the operating system since it is the OS that ultimately has to deal with it. and yes, files are much more complex).
So far so good. But how do we get the content of the file, say a love letter to your beau, so we can print it?
Reading a file
If we start from the result and move backwards, when we open a file on our computer its entire contents is splashed on our screen for us to read. But how? Very methodically is the answer. The content of the file itself is another data structure. Suppose an array of characters. We can also think of this as a string.
So how do we 'read' this string? By finding its location in memory and iterating through our array of characters, one character at a time until reaching an end of file character. In other words a program.
A stream is 'created' when its program is called and it has a memory location to attach to or connect to. Much like our water hose example, the hose is ineffective if it is not connected to a spigot. In the case of the stream, it must be connected to a file for it to exist.
Streams can be further refined, e.g, a stream to receive input or a stream to send a files contents to standard output. UNIX/linux connects and keeps open 3 filestreams for us right off the bat, stdin (standard input), stdout (standard output) and stderr (standard error). Streams can be built as data structures themselves or objects which allows us to perform more complex operations of the data streaming through them, like opening the stream, closing the stream or error checking the file a stream is connected to. C++'s
cin is an example of a stream object.
Surely, if you so choose, you can write your own stream.
A stream is a reusable piece of code that abstracts the complexity of dealing with data while providing useful operations to perform on data.