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Postprocessing with Python Boris Dintrans (CNRS & University of Toulouse) [email protected] Collaborator: Thomas Gastine (PhD) Outline Outline • Introduction - what’s Python and why using it? - Installation procedure Outline • Introduction - what’s Python and why using it? - Installation procedure • - Python and the Pencil Code the Python repository and initialization Migrating from IDL to Python Some examples & tricks Parallel Python with Pypar Doing widgets with PyQt Outline • Introduction - what’s Python and why using it? - Installation procedure • - Python and the Pencil Code the Python repository and initialization Migrating from IDL to Python Some examples & tricks Parallel Python with Pypar Doing widgets with PyQt • Conclusion/Outlook What’s Python? What’s Python? Python was created in 1991 by Guido van Rossum (CWI, Centrum voor Wiskunde en Informatica, Amsterdam) Benevolent Dictator for Life (BDFL) What’s Python? Python was created in 1991 by Guido van Rossum (CWI, Centrum voor Wiskunde en Informatica, Amsterdam) Benevolent Dictator for Life (BDFL) What’s Python? Python was created in 1991 by Guido van Rossum (CWI, Centrum voor Wiskunde en Informatica, Amsterdam) Benevolent Dictator for Life (BDFL) The first release in 1991 on alt.sources DARPA funding proposal “Computer Programming for Everybody” (1999): DARPA funding proposal “Computer Programming for Everybody” (1999): • an easy and intuitive language just as powerful as major competitors • open source, so anyone can contribute to its development • code that is as understandable as plain English • suitability for everyday tasks, allowing for short development times DARPA funding proposal “Computer Programming for Everybody” (1999): • an easy and intuitive language just as powerful as major competitors • open source, so anyone can contribute to its development • code that is as understandable as plain English • suitability for everyday tasks, allowing for short development times year 1991 1994 1995 2001 2003 2007 2009 version 0.9 1.0 1.2 2.0 2.2 2.5 3.0 DARPA funding proposal “Computer Programming for Everybody” (1999): • an easy and intuitive language just as powerful as major competitors • open source, so anyone can contribute to its development • code that is as understandable as plain English • suitability for everyday tasks, allowing for short development times • Why year 1991 1994 1995 2001 2003 2007 2009 version 0.9 1.0 1.2 2.0 2.2 2.5 3.0 Python? - it’s free! ;-) - quite easy to use; object-oriented; highly modular, etc... - much more rapid than IDL and even PARALLEL The main Python website: www.python.org The SciPy website: www.scipy.org How to install Python? How to install Python? Required: • python 2.5: the engine • numpy: the scientific computing package (arrays, linear algebra, FFT, random numbers, etc...); [replaces old numarray and numeric] • scipy: modules for integrating ODEs, optimizing functions, etc... [tends to federate all of Python scientific modules] • matplotlib: MATLAB-inspired mostly-2D plotting modules How to install Python? Required: • python 2.5: the engine • numpy: the scientific computing package (arrays, linear algebra, FFT, random numbers, etc...); [replaces old numarray and numeric] • scipy: modules for integrating ODEs, optimizing functions, etc... [tends to federate all of Python scientific modules] • matplotlib: MATLAB-inspired mostly-2D plotting modules Optional: • ipython: convenient shell to develop and run Python • basemap: map projections • Pypar: parallel Python (interface with MPI libraries) • PyQt: to do Qt-like widgets VERY easily under Python • MayaVi: 3D plotting http://python.org/download/ From sources or binary packages? From sources or binary packages? • • For all platforms: everything can be compiled from sources For Linux, Windows & Mac (at least): binaries are provided (Linux: yum, apt-get, dpkg; Mac: Fink, MacPorts, dmg) From sources or binary packages? • • For all platforms: everything can be compiled from sources For Linux, Windows & Mac (at least): binaries are provided (Linux: yum, apt-get, dpkg; Mac: Fink, MacPorts, dmg) Linux (FedoraCore 7) Mac OS X 10.4 (Tiger) Python 2.5.12 2.5.2 Numpy 1.0.3 1.0.4 Scipy 0.6.0 0.7.0 Matplotlib 0.90.0 0.90.1 ipython 0.8.1 0.8.2 Typical installation on a Linux box Python on Mac OSX: www.pythonmac.org/packages/py25-fat Scipy Superpack for OS X: http://macinscience.org/?page_id=6 Python packages on my Macbook Pro (SciPy Superpack) Python in the Pencil Code repository: f90/pencil-code/numpy commited by Jeff in fall of 2007 revision 1.1 date: 2007-11-16 13:57:04 +0000; author: joishi; state: Exp; * added python scripts for reading pencil code data. they require only the numpy package, but matplotlib is useful for plotting. almost all of these routines are simplified clones of their idl counterparts. i'd love to make a more OO pencil-code package, but my current occupational constraints make that unlikely in the near term. NB: the byte ordering in python is C, not fortran, so these routines return an f array with shape f[nvar,nz,ny,nx]--the reverse of pencil. * added nl2python to take advantage of the amazing perl F90Namelist.pm * modified F90Namelist.pm to output python * i hope these are moderately useful to people! The actual Python tree: 3 directories The reading stuff numpy/pencil/files __init__.py yzaver.py yaver.py xyaver.py npfile.py dim.py param.py grid.py slices.py zprof.py index.py var.py ts.py The actual Python tree: 3 directories The reading stuff numpy/pencil/files __init__.py yzaver.py yaver.py xyaver.py npfile.py dim.py param.py grid.py slices.py zprof.py index.py var.py ts.py The math stuff numpy/pencil/math __init__.py vector_multiplication.py derivatives/ numpy/pencil/math/derivatives __init__.py der.py div_grad_curl.py der_6th_order_w_ghosts.py ...and the initialization of $PYTHONPATH in f90/pencil-code/sourceme.csh # Set PYTHON path if ($?PYTHONPATH) then setenv PYTHONPATH "${PYTHONPATH}:${PENCIL_HOME}/numpy" else setenv PYTHONPATH "${PENCIL_HOME}/numpy" endif ...and the initialization of $PYTHONPATH in f90/pencil-code/sourceme.csh # Set PYTHON path if ($?PYTHONPATH) then setenv PYTHONPATH "${PYTHONPATH}:${PENCIL_HOME}/numpy" else setenv PYTHONPATH "${PENCIL_HOME}/numpy" endif These modules are loaded when importing the whole pencil directory due to the __init__.py file cat numpy/pencil/ __init__.py cat numpy/pencil/ __init__.py In [1]: import pencil as pc In [2]: pc.read_ts() An important point: Python’s classes • Python is an object-oriented interpreted language: instead of doing pc.read_ts(), it is better to do a=pc.read_ts() An important point: Python’s classes • Python is an object-oriented interpreted language: instead of doing pc.read_ts(), it is better to do a=pc.read_ts() ... and we can plot the other variables read in time_series.dat and embedded in object ‘a’ Another example when using pc.read_var() Another example when using pc.read_var() ...and we plot the entropy at the top of the 32^3 box Another examples of postprocesing with Python MayaVi: 3D plots Basemap: various kind of map projections http://code.enthought.com/projects/mayavi/ Be careful: Python’s arrays are ordered like f[nvar,mz,my,mx] i.e. REVERSED ORDER COMPARED TO PENCILCODE OR IDL!!! Migrating from IDL to Python: some useful Web Guides http://www.stsci.edu/resources/software_hardware/numarray/idl2numarray http://mathesaurus.sourceforge.net/idl-numpy.html For lazy guys: the i2py converter http://code.google.com/p/i2py/ Some tricks when using Python... Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... • import just what you need! (a cleaning is certainly needed in that respect in the PC tree...) Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... • import just what you need! (a cleaning is certainly needed in that respect in the PC tree...) • launch ipython with the ‘-pylab’ option to call directly plot, contour, imshow, etc... Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... • import just what you need! (a cleaning is certainly needed in that respect in the PC tree...) • launch ipython with the ‘-pylab’ option to call directly plot, contour, imshow, etc... • accelerate the VAR* reading by passing param, grid, index, etc... [tricks.py] Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... • import just what you need! (a cleaning is certainly needed in that respect in the PC tree...) • launch ipython with the ‘-pylab’ option to call directly plot, contour, imshow, etc... • accelerate the VAR* reading by passing param, grid, index, etc... [tricks.py] • accelerate the graphics by using an handle [tricks.py] Some tricks when using Python... • plays with ~/.ipython/ipythonrc to load modules by default (import_all pencil) and thus use ‘read_var’ instead of ‘pc.read_var()’, etc... • import just what you need! (a cleaning is certainly needed in that respect in the PC tree...) • launch ipython with the ‘-pylab’ option to call directly plot, contour, imshow, etc... • accelerate the VAR* reading by passing param, grid, index, etc... [tricks.py] • • accelerate the graphics by using an handle [tricks.py] take advantage of class and objects (a.shape instead of shape(a)) Parallel Python using the Pypar module http://sourceforge.net/projects/pypar Pypar example 1: compute a vertical profile in parallel Pypar example 2: write PNG files in parallel for a movie Widgets using Qt Designer + PyQt Conclusion/Outlook Conclusion/Outlook • Python can do a very good job in the Pencil Code postprocessing • Its using is rapidly increasing in astrophysics (NASA, ESA, ESO, labs,...) • More in the Pencil Code philosophy (i.e. under GPL) compared to IDL Conclusion/Outlook • Python can do a very good job in the Pencil Code postprocessing • Its using is rapidly increasing in astrophysics (NASA, ESA, ESO, labs,...) • More in the Pencil Code philosophy (i.e. under GPL) compared to IDL • the actual Python subroutines must be rewritten in a more oriented-object form (class inheritance) •the Python tree shall maybe be re-organized in something like f90/pencil-code/python or??? • what’s about the calling of Fortran or C subroutines to increase the speed?
