k.ladutenko/scatt @ 5ce07e9840e6c7708eb7bd80c34ec4e19695b482

Sen descrición

Konstantin Ladutenko 5ce07e9840 removed warnings about unsigned int comparison		%!s(int64=10) %!d(string=hai) anos
debian	b911a457c8 Deleted some garbage files generated during compilation.	%!s(int64=10) %!d(string=hai) anos
doc	966ec23849 an bn and input corresponds to MatScat	%!s(int64=10) %!d(string=hai) anos
tests	3ae25720b2 Corrected a couple of bugs. Field calculation seems to be working now!!!	%!s(int64=10) %!d(string=hai) anos
.gitignore	5ce07e9840 removed warnings about unsigned int comparison	%!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	5ce07e9840 removed warnings about unsigned int comparison	%!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
bessel.cc	c9eed4b712 Pl and nmax now treated in C call of nMie. Clean up wrong bessel implementation.	%!s(int64=10) %!d(string=hai) anos
bessel.h	c9eed4b712 Pl and nmax now treated in C call of nMie. Clean up wrong bessel implementation.	%!s(int64=10) %!d(string=hai) anos
compare.cc	5ce07e9840 removed warnings about unsigned int comparison	%!s(int64=10) %!d(string=hai) anos
go.sh	5ce07e9840 removed warnings about unsigned int comparison	%!s(int64=10) %!d(string=hai) anos
nmie-old.cc	3a6320a005 Revised calculation of electric field. Everything seems right now for the calculation outside the particle. Also did several small format changes.	%!s(int64=10) %!d(string=hai) anos
nmie-old.h	a098084807 Core calculations ported to C++ class.	%!s(int64=10) %!d(string=hai) anos
nmie-wrapper.cc	553a8d05d1 Reversed changes to scattnlay.pyx because the python extension would compile well but it was not returning the complex vectors (S1 and S2). If changed again we must verify that tes04.py works!!!	%!s(int64=10) %!d(string=hai) anos
nmie-wrapper.h	fd8d92ade7 Separating the calculation core in a new class. It is not yet ready.	%!s(int64=10) %!d(string=hai) anos
nmie.cc	5ce07e9840 removed warnings about unsigned int comparison	%!s(int64=10) %!d(string=hai) anos
nmie.h	5ce07e9840 removed warnings about unsigned int comparison	%!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	8dafd465ef Python wrapper working with new class.	%!s(int64=10) %!d(string=hai) anos
py_nmie.h	8dafd465ef Python wrapper working with new class.	%!s(int64=10) %!d(string=hai) anos
scattnlay.pyx	8dafd465ef Python wrapper working with new class.	%!s(int64=10) %!d(string=hai) anos
setup.py	8dafd465ef Python wrapper working with new class.	%!s(int64=10) %!d(string=hai) anos
setup_cython.py	3a6320a005 Revised calculation of electric field. Everything seems right now for the calculation outside the particle. Also did several small format changes.	%!s(int64=10) %!d(string=hai) anos
standalone.cc	5ce07e9840 removed warnings about unsigned int comparison	%!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

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


			
		