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Hopefully, you are familiar with the basics of I/O redirection in the shell, in particular the concepts of "standard input," "standard output," and "standard error". Briefly, "standard input" is a data source, where data comes from. A program should not need to either know or care if the data source is a disk file, a keyboard, a magnetic tape, or even a punched card reader. Similarly, "standard output" is a data sink, where data goes to. The program should neither know nor care where this might be. Programs that only read their standard input, do something to the data, and then send it on, are called filters, by analogy to filters in a water pipeline.
With the Unix shell, it's very easy to set up data pipelines:
program_to_create_data | filter1 | .... | filterN > final.pretty.data |
We start out by creating the raw data; each filter applies some successive transformation to the data, until by the time it comes out of the pipeline, it is in the desired form.
This is fine and good for standard input and standard output. Where does the
standard error come in to play? Well, think about filter1
in
the pipeline above. What happens if it encounters an error in the data it
sees? If it writes an error message to standard output, it will just
disappear down the pipeline into filter2
's input, and the
user will probably never see it. So programs need a place where they can send
error messages so that the user will notice them. This is standard error,
and it is usually connected to your console or window, even if you have
redirected standard output of your program away from your screen.
For filter programs to work together, the format of the data has to be
agreed upon. The most straightforward and easiest format to use is simply
lines of text. Unix data files are generally just streams of bytes, with
lines delimited by the ASCII LF (Line Feed) character,
conventionally called a "newline" in the Unix literature. (This is
'\n'
if you're a C programmer.) This is the format used by all
the traditional filtering programs. (Many earlier operating systems
had elaborate facilities and special purpose programs for managing
binary data. Unix has always shied away from such things, under the
philosophy that it's easiest to simply be able to view and edit your
data with a text editor.)
OK, enough introduction. Let's take a look at some of the tools, and then we'll see how to hook them together in interesting ways. In the following discussion, we will only present those command line options that interest us. As you should always do, double check your system documentation for the full story.
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