cpython/Doc/lib/libcodeop.tex

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\section{\module{codeop} ---
Compile Python code}
% LaTeXed from excellent doc-string.
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\declaremodule{standard}{codeop}
\sectionauthor{Moshe Zadka}{moshez@zadka.site.co.il}
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\sectionauthor{Michael Hudson}{mwh@python.net}
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\modulesynopsis{Compile (possibly incomplete) Python code.}
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The \module{codeop} module provides utilities upon which the Python
read-eval-print loop can be emulated, as is done in the
\refmodule{code} module. As a result, you probably don't want to use
the module directly; if you want to include such a loop in your
program you probably want to use the \refmodule{code} module instead.
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There are two parts to this job:
\begin{enumerate}
\item Being able to tell if a line of input completes a Python
statement: in short, telling whether to print
`\code{>\code{>}>~} or `\code{...~}' next.
\item Remembering which future statements the user has entered, so
subsequent input can be compiled with these in effect.
\end{enumerate}
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The \module{codeop} module provides a way of doing each of these
things, and a way of doing them both.
To do just the former:
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\begin{funcdesc}{compile_command}
{source\optional{, filename\optional{, symbol}}}
Tries to compile \var{source}, which should be a string of Python
code and return a code object if \var{source} is valid
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Python code. In that case, the filename attribute of the code object
will be \var{filename}, which defaults to \code{'<input>'}.
Returns \code{None} if \var{source} is \emph{not} valid Python
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code, but is a prefix of valid Python code.
If there is a problem with \var{source}, an exception will be raised.
\exception{SyntaxError} is raised if there is invalid Python syntax,
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and \exception{OverflowError} or \exception{ValueError} if there is an
invalid literal.
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The \var{symbol} argument determines whether \var{source} is compiled
as a statement (\code{'single'}, the default) or as an expression
(\code{'eval'}). Any other value will cause \exception{ValueError} to
be raised.
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\strong{Caveat:}
It is possible (but not likely) that the parser stops parsing
with a successful outcome before reaching the end of the source;
in this case, trailing symbols may be ignored instead of causing an
error. For example, a backslash followed by two newlines may be
followed by arbitrary garbage. This will be fixed once the API
for the parser is better.
\end{funcdesc}
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\begin{classdesc}{Compile}{}
Instances of this class have \method{__call__()} methods indentical in
signature to the built-in function \function{compile()}, but with the
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difference that if the instance compiles program text containing a
\module{__future__} statement, the instance 'remembers' and compiles
all subsequent program texts with the statement in force.
\end{classdesc}
\begin{classdesc}{CommandCompiler}{}
Instances of this class have \method{__call__()} methods identical in
signature to \function{compile_command()}; the difference is that if
the instance compiles program text containing a \code{__future__}
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statement, the instance 'remembers' and compiles all subsequent
program texts with the statement in force.
\end{classdesc}
A note on version compatibility: the \class{Compile} and
\class{CommandCompiler} are new in Python 2.2. If you want to enable
the future-tracking features of 2.2 but also retain compatibility with
2.1 and earlier versions of Python you can either write
\begin{verbatim}
try:
from codeop import CommandCompiler
compile_command = CommandCompiler()
del CommandCompiler
except ImportError:
from codeop import compile_command
\end{verbatim}
which is a low-impact change, but introduces possibly unwanted global
state into your program, or you can write:
\begin{verbatim}
try:
from codeop import CommandCompiler
except ImportError:
def CommandCompiler():
from codeop import compile_command
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return compile_command
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\end{verbatim}
and then call \code{CommandCompiler} every time you need a fresh
compiler object.