The important thing to understand is that when you set up a variant directory, SCons performs the build in that directory. It turns out it's easiest to ensure where build products end up by just building in place. Since the build is happening in a place different from where the sources are, the most straightforward way to guarantee a correct build is for SCons to copy them there.
The most direct reason to duplicate source files in variant directories is simply that some tools (mostly older versions) are written to only build their output files in the same directory as the source files. In this case, the choices are either to build the output file in the source directory and move it to the variant directory, or to duplicate the source files in the variant directory.
Additionally,
relative references between files
can cause problems if we don't
just duplicate the hierarchy of source files
in the variant directory.
You can see this at work in
use of the C preprocessor #include
mechanism with double quotes, not angle brackets:
#include "file.h"
The de facto standard behavior
for most C compilers in this case
is to first look in the same directory
as the source file that contains the #include
line,
then to look in the directories in the preprocessor search path.
Add to this that the SCons implementation of
support for code repositories
(described below)
means not all of the files
will be found in the same directory hierarchy,
and the simplest way to make sure
that the right include file is found
is to duplicate the source files into the variant directory,
which provides a correct build
regardless of the original location(s) of the source files.
Although source-file duplication guarantees a correct build even in these end-cases, it can usually be safely disabled. The next section describes how you can disable the duplication of source files in the variant directory.