From http://www.cplusplus.com/reference/iostream/cout/:
By default, most systems have their standard output set to the console, where text messages are shown, although this can generally be redirected.
I've never heard of a system where stdout
is anything other than a console window, by default or otherwise. I can see how redirecting it might be beneficial i开发者_StackOverflown systems where printing is an expensive operation, but that shouldn't be an issue in modern computers, right?
Of course it could be. I may want to redirect standard out to a text file, another process, a socket, whatever.
By default it is the Console, but the are a variety of reasons to redirect it, the most useful (in step with the Unix philosophy) being the redirection of the output of one program to the input of another program. This allows one to create many small, lightweight programs that feed into one another and work as discrete parts of a larger system.
Basically, it's just a simple yet powerful mechanism for sharing data. It is more popular on *nix systems for the reason I mention above, but it applies to Windows as well.
On most systems you can redirect the standard input/output/error to other file descriptors or locations.
For example (on Unix):
./appname > output
Redirects the stdout from appname to a file named output.
./appname 2> errors > output
Redirects stdout
to a file named output, and all errors from stderr
to a file named errors.
On unix systems you can also have a program open a file descriptor and point it at stdin
, such as this:
echo "input" > input
cat input | ./appname
This will cause the program to read from the pipe for stdin
.
This is how in unix you can "pipe" various different utilities together to create one larger tool.
find . -type f | ./appname | grep -iv "search"
This will run the find
command, and take its output and pipe it into ./appname, then appname
's output will be sent to grep
's input which then searches for the word "search", displaying just the results that match.
It allows many small utilities to have a very powerful effect.
Think of the >
, <
, and |
like plumbing.
>
is like the drain in a sink, it accepts data and stores it where you want to put it. When a shell encounters the >
it will open a file.
> file
When the shell sees the above, it will open
the file using a standard system call, and remember that file descriptor. In the above case since there is no input it will create an empty file and allow you to type more commands.
banner Hello
This command writes Hello in really big letters to the console, and will cause it to scroll (I am using Unix here since it is what I know best). The output is simply written to standard out. Using a "sink" (>
) we can control where the output goes, so
banner Hello > bannerout
will cause all of the data from banner's standard output to be redirected to the file descriptor the shell has opened and thus be written to a file named bannerout
.
Pipes work similarly to >
's in that they help control the flow of where the data goes. Pipes however can't write to files, and can only be used to help the flow of data go from one point to another.
For example, here is water flowing through several substations and waste cleaning:
pump --from lake | treatment --cleanse-water | pump | reservoir | pump > glass
The water flows from the lake, through a pipe to the water treatment plant, from the plant back into a pump that moves it to a reservoir, then it is pumped once more into the municipal water pipes and through your sink into your glass.
Notice that the pipes simply connect all of the outputs together, ultimately it ends up in your glass.
It is the same way with commands and processing them in a shell on Linux. It also follows a path to get to an end result.
Now there is one final thing that I hadn't discussed yet in my previous statements, that is the <
input character. What it does is read from a file and output it to stdin on programs.
cat < bannerout
Will simply print what was stored in bannerout. This can be used if you have a file you want to process, but don't want to prepend cat <file>
because of not wanting to run an extra command in the chain.
So try this:
echo "Hello" > bannerinput
banner < bannerinput
This will first put the string "Hello" in the file bannerinput
, and then when your run banner it will read from the file bannerinput
.
I hope this helps you understand how redirection and pipping works on Unix (some if not most will apply to Windows as well).
So far all of the answers have been in the context of the thing (shell, whatever) that invokes the program. The program itself can make stdout
something other than the terminal. The C standard library provides freopen
which lets the programmer redirect stdout in any compliant environment. POSIX provides a number of other mechanisms (popen
, fdopen
, ...) that gives the programmer even more control. I suspect Windows provides analogous mechanisms.
Any number of things can happen to the three standard file descriptors 0, 1 and 2. Anyone can launch a new process with the file descriptors attached to anything they like.
For instance, GNU screen puts the output into a pipe and allows dynamic reattaching of a session. SSH takes the output and returns it to the other end. And of course all the numerous shell redirectors regularly make use of manipulating the file descriptors.
For a program to have stdout
it must be running on a hosted implementation (one with an Operating System), or on a free-standing implementation with extras.
I'm having a hard time figuring such an implementation without a console of some kind, but let's suppose for a moment that Mars Rover has a full OS and is programmed in C (or C++) and doesn't have that console
/* 2001-07-15: JPL: stdout is the headquarters */
puts("Help. I'm stuck.");
might have sent the message to NASA headquarters.
Both Windows and Linux will redirect stdout
to a file if you run the program like this:
my_program > some_file
This is the most common case, but many other types of redirection are possible. On Linux, you can redirect stdout
to anything that supports the "file descriptor" interface, such as a pipe, socket, file, and various other things.
One simple example of a case where one might want to redirect stdout is when passing the information to another program. The Unix/Linux command ps
generates a list of processes that belong to the current user. If this list was long and you wanted to search for a particular process, you could enter
ps | grep thing
which would redirect the stdout
of ps
to the stdin
of grep thing
.
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