2016-10-16 17:12:43 +00:00
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Utilities
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#########
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Using Python's print function in C++
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====================================
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The usual way to write output in C++ is using ``std::cout`` while in Python one
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would use ``print``. Since these methods use different buffers, mixing them can
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lead to output order issues. To resolve this, pybind11 modules can use the
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:func:`py::print` function which writes to Python's ``sys.stdout`` for consistency.
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Python's ``print`` function is replicated in the C++ API including optional
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keyword arguments ``sep``, ``end``, ``file``, ``flush``. Everything works as
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expected in Python:
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.. code-block:: cpp
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py::print(1, 2.0, "three"); // 1 2.0 three
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py::print(1, 2.0, "three", "sep"_a="-"); // 1-2.0-three
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auto args = py::make_tuple("unpacked", true);
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py::print("->", *args, "end"_a="<-"); // -> unpacked True <-
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2017-08-25 00:12:43 +00:00
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.. _ostream_redirect:
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Capturing standard output from ostream
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======================================
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Often, a library will use the streams ``std::cout`` and ``std::cerr`` to print,
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but this does not play well with Python's standard ``sys.stdout`` and ``sys.stderr``
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redirection. Replacing a library's printing with `py::print <print>` may not
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be feasible. This can be fixed using a guard around the library function that
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redirects output to the corresponding Python streams:
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.. code-block:: cpp
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#include <pybind11/iostream.h>
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...
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// Add a scoped redirect for your noisy code
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m.def("noisy_func", []() {
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py::scoped_ostream_redirect stream(
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std::cout, // std::ostream&
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2020-10-03 17:38:03 +00:00
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py::module_::import("sys").attr("stdout") // Python output
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2017-08-25 00:12:43 +00:00
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);
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call_noisy_func();
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});
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2021-07-12 20:39:06 +00:00
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.. warning::
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The implementation in ``pybind11/iostream.h`` is NOT thread safe. Multiple
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threads writing to a redirected ostream concurrently cause data races
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2021-07-12 20:57:28 +00:00
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and potentially buffer overflows. Therefore it is currently a requirement
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2021-07-12 20:39:06 +00:00
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that all (possibly) concurrent redirected ostream writes are protected by
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a mutex. #HelpAppreciated: Work on iostream.h thread safety. For more
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background see the discussions under
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`PR #2982 <https://github.com/pybind/pybind11/pull/2982>`_ and
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`PR #2995 <https://github.com/pybind/pybind11/pull/2995>`_.
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2017-08-25 00:12:43 +00:00
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This method respects flushes on the output streams and will flush if needed
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when the scoped guard is destroyed. This allows the output to be redirected in
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real time, such as to a Jupyter notebook. The two arguments, the C++ stream and
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the Python output, are optional, and default to standard output if not given. An
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extra type, `py::scoped_estream_redirect <scoped_estream_redirect>`, is identical
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except for defaulting to ``std::cerr`` and ``sys.stderr``; this can be useful with
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`py::call_guard`, which allows multiple items, but uses the default constructor:
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.. code-block:: py
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// Alternative: Call single function using call guard
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m.def("noisy_func", &call_noisy_function,
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py::call_guard<py::scoped_ostream_redirect,
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py::scoped_estream_redirect>());
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The redirection can also be done in Python with the addition of a context
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manager, using the `py::add_ostream_redirect() <add_ostream_redirect>` function:
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.. code-block:: cpp
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py::add_ostream_redirect(m, "ostream_redirect");
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The name in Python defaults to ``ostream_redirect`` if no name is passed. This
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creates the following context manager in Python:
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.. code-block:: python
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with ostream_redirect(stdout=True, stderr=True):
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noisy_function()
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It defaults to redirecting both streams, though you can use the keyword
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arguments to disable one of the streams if needed.
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.. note::
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The above methods will not redirect C-level output to file descriptors, such
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as ``fprintf``. For those cases, you'll need to redirect the file
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descriptors either directly in C or with Python's ``os.dup2`` function
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in an operating-system dependent way.
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2017-04-22 21:24:13 +00:00
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.. _eval:
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2016-10-16 17:12:43 +00:00
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Evaluating Python expressions from strings and files
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====================================================
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2017-04-29 23:53:06 +00:00
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pybind11 provides the `eval`, `exec` and `eval_file` functions to evaluate
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2016-10-16 17:12:43 +00:00
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Python expressions and statements. The following example illustrates how they
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can be used.
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.. code-block:: cpp
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// At beginning of file
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#include <pybind11/eval.h>
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...
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// Evaluate in scope of main module
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2020-10-03 17:38:03 +00:00
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py::object scope = py::module_::import("__main__").attr("__dict__");
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2016-10-16 17:12:43 +00:00
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// Evaluate an isolated expression
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int result = py::eval("my_variable + 10", scope).cast<int>();
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// Evaluate a sequence of statements
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2017-04-29 23:53:06 +00:00
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py::exec(
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2016-10-16 17:12:43 +00:00
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"print('Hello')\n"
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"print('world!');",
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scope);
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// Evaluate the statements in an separate Python file on disk
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py::eval_file("script.py", scope);
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2017-03-28 22:27:56 +00:00
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C++11 raw string literals are also supported and quite handy for this purpose.
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The only requirement is that the first statement must be on a new line following
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the raw string delimiter ``R"(``, ensuring all lines have common leading indent:
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.. code-block:: cpp
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2017-04-29 23:53:06 +00:00
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py::exec(R"(
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2017-03-28 22:27:56 +00:00
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x = get_answer()
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if x == 42:
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print('Hello World!')
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else:
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print('Bye!')
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)", scope
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);
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2017-04-29 23:53:06 +00:00
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.. note::
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`eval` and `eval_file` accept a template parameter that describes how the
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string/file should be interpreted. Possible choices include ``eval_expr``
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(isolated expression), ``eval_single_statement`` (a single statement, return
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value is always ``none``), and ``eval_statements`` (sequence of statements,
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return value is always ``none``). `eval` defaults to ``eval_expr``,
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`eval_file` defaults to ``eval_statements`` and `exec` is just a shortcut
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for ``eval<eval_statements>``.
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