micropython/examples/embedding
Damien George 6b239c271c py: Factor out persistent-code reader into separate files.
Implementations of persistent-code reader are provided for POSIX systems
and systems using FatFS.  Macros to use these are MICROPY_READER_POSIX and
MICROPY_READER_FATFS respectively.  If an alternative implementation is
needed then a port can define the function mp_reader_new_file.
2016-11-16 18:13:50 +11:00
..
Makefile examples/embedding: Example for embedding MicroPython in an app. 2016-07-22 22:13:03 +03:00
Makefile.upylib examples/embedding: Example for embedding MicroPython in an app. 2016-07-22 22:13:03 +03:00
README examples/embedding: Add README. 2016-07-22 22:13:03 +03:00
hello-embed.c examples/embedding: Example for embedding MicroPython in an app. 2016-07-22 22:13:03 +03:00
mpconfigport.h examples/embedding: Example for embedding MicroPython in an app. 2016-07-22 22:13:03 +03:00
mpconfigport_minimal.h py: Factor out persistent-code reader into separate files. 2016-11-16 18:13:50 +11:00

README

Example of embedding MicroPython in a standlone C application
=============================================================

This directory contains a (very simple!) example of how to embed a MicroPython
in an existing C application.

A C application is represented by the file hello-embed.c. It executes a simple
Python statement which prints to the standard output.


Building the example
--------------------

Build the example is as simple as running:

    make

It's worth to trace what's happening behind the scenes though:

1. As a first step, a MicroPython library is built. This is handled by a
seperate makefile, Makefile.upylib. It is more or less complex, but the
good news is that you won't need to change anything in it, just use it
as is, the main Makefile shows how. What may need editing though is
MicroPython configuration file. MicroPython is highly configurable, so
you would need to build a library suiting your application well, while
not bloating its size. Check the options in the file "mpconfigport.h".
Included is a copy of "minimal" Unix port, which should be good start
for minimal embedding. For list of all available options, see py/mpconfig.h.

2. Once the library is built, your application is compiled and linked with
the MicroPython library produced in the previous step. The main Makefile
is very simple and shows that changes you would need to do to your
application's Makefile (or other build configuration) are also simple:

a) You would need to use C99 standard (you're using 15+ years old standard
already, not a 25+ years old one, right?).

b) You need to provide path to MicroPython's top-level dir, for includes.

c) You need to include -DNO_QSTR compile-time flag.

d) Otherwise, just link with micropython library produced in step 1.


Out of tree build
-----------------

This example set up to work out of the box, being part of the MicroPython
tree. Your application of course will be outside of its tree, but the
only thing you need to do is to pass MPTOP variable pointing to
MicroPython directory to both Makefiles (in this example, the main Makefile
automatically pass it to Makefile.upylib; in your own Makefile, don't forget
to use suitable value).

A practical way to embed MicroPython in your application is to include it
as a git submodule. Suppose you included it as libs/micropython. Then in
your main Makefile you would have something like:

~~~
MPTOP = libs/micropython

my_app: $(MY_OBJS) -lmicropython

-lmicropython:
	$(MAKE) -f $(MPTOP)/examples/embedding/Makefile.upylib MPTOP=$(MPTOP)
~~~