k.ladutenko/scatt @ b6c275ddb2e849f367ecef9d43a157832595fbff

Sen descrición

Konstantin Ladutenko b6c275ddb2 Switched to probably slow, however, easy to read memory layout		%!s(int64=10) %!d(string=hai) anos
debian	b911a457c8 Deleted some garbage files generated during compilation.	%!s(int64=10) %!d(string=hai) anos
doc	b6c275ddb2 Switched to probably slow, however, easy to read memory layout	%!s(int64=10) %!d(string=hai) anos
tests	198ad6296d Found the bug (it was a problem converting to spherical coordinates). Now the calculation of electric field outside the particle is working well.	%!s(int64=10) %!d(string=hai) anos
.gitignore	500ec4e6d7 moved to C++ version of the library by default	%!s(int64=10) %!d(string=hai) anos
CHANGES	1b7786ad5a Initial commit based on Ovidio version of python-scattnlay 0.3.0	%!s(int64=10) %!d(string=hai) anos
COPYING	1b7786ad5a Initial commit based on Ovidio version of python-scattnlay 0.3.0	%!s(int64=10) %!d(string=hai) anos
LICENSE	1b7786ad5a Initial commit based on Ovidio version of python-scattnlay 0.3.0	%!s(int64=10) %!d(string=hai) anos
MANIFEST.in	8d6d84aa20 Calculation of electric field outside the particle is mostly working. Added a python test for this calculation.	%!s(int64=10) %!d(string=hai) anos
Makefile	8d6d84aa20 Calculation of electric field outside the particle is mostly working. Added a python test for this calculation.	%!s(int64=10) %!d(string=hai) anos
PKG-INFO	a02a844cdc Modifications to complete the porting to C++. Most of the work was done by 'kostyfisik'.	%!s(int64=10) %!d(string=hai) anos
README	1b7786ad5a Initial commit based on Ovidio version of python-scattnlay 0.3.0	%!s(int64=10) %!d(string=hai) anos
compare.cc	b6c275ddb2 Switched to probably slow, however, easy to read memory layout	%!s(int64=10) %!d(string=hai) anos
go.sh	f500aa4c96 Bug in nmie.cc! Start of nField porting.	%!s(int64=10) %!d(string=hai) anos
nmie-wrapper.cc	b6c275ddb2 Switched to probably slow, however, easy to read memory layout	%!s(int64=10) %!d(string=hai) anos
nmie-wrapper.h	b6c275ddb2 Switched to probably slow, however, easy to read memory layout	%!s(int64=10) %!d(string=hai) anos
nmie.cc	f500aa4c96 Bug in nmie.cc! Start of nField porting.	%!s(int64=10) %!d(string=hai) anos
nmie.h	9d6c859ff5 checkout nmie.cc and nmie.h to 164dc05 commit	%!s(int64=10) %!d(string=hai) anos
push-to-github.sh	eea51ce5ca Changes to push script	%!s(int64=10) %!d(string=hai) anos
py_nmie.cc	b0f8cefe13 Python version compiling too.	%!s(int64=10) %!d(string=hai) anos
py_nmie.h	b0f8cefe13 Python version compiling too.	%!s(int64=10) %!d(string=hai) anos
scattnlay.cc	8d6d84aa20 Calculation of electric field outside the particle is mostly working. Added a python test for this calculation.	%!s(int64=10) %!d(string=hai) anos
scattnlay.pyx	8d6d84aa20 Calculation of electric field outside the particle is mostly working. Added a python test for this calculation.	%!s(int64=10) %!d(string=hai) anos
setup.py	a02a844cdc Modifications to complete the porting to C++. Most of the work was done by 'kostyfisik'.	%!s(int64=10) %!d(string=hai) anos
setup_cython.py	acdd386022 Deleted library ucomplex because it is no longer required. Also added the cython setup file.	%!s(int64=10) %!d(string=hai) anos
standalone.cc	296172b011 Small changes to makefile	%!s(int64=10) %!d(string=hai) anos
test-negative-epsilon.cc	097982a8b2 seem to work ok with optimizer	%!s(int64=10) %!d(string=hai) anos

		
			
			
				README
			
		
		
	
			
				*******************************************************************************
How to use scattnlay
*******************************************************************************

1. Compile Code:
   (a) Compilation options
	* make source - Create source package (python library)
	* make install - Install on local system (python library)
	* make buildrpm - Generate a rpm package (python library)
	* make builddeb - Generate a deb package (python library)
	* make standalone - Create a standalone program
	* make clean - Delete temporal files

*******************************************************************************
2. Use:
   (a) Python library
      * Use scattnlay directly
          from scattnlay import scattnlay
          ...
          x = ...
          m = ...
          terms, Qext, Qsca, Qabs, Qbk, Qpr, g, Albedo, S1, S2 = scattnlay(x, m)
          ...

      * Execute some of the test scripts (located in the folder 'tests/python')
          Example:  ./test01.py

   (b) Standalone program
      * Execute scattnlay directly
          Usage: scattnlay -l Layers x1 m1.r m1.i [x2 m2.r m2.i ...] [-c comment]

      * Execute some of the test scripts (located in the folder 'tests/shell')
          Example:  ./test01.sh > test01.csv

*******************************************************************************


			
		