Version 8 (modified by pkienzle, 9 years ago) (diff) |
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Introduction
In the new sasmodels package there are three ways of writing models:
- As a pure python model : Example - broadpeak.py
- As a python model with embedded C : Example - sphere.py
- As a python wrapper with separate C code : Example - barbell.py, barbell.c
The documentation for the sasmodels package can be found at http://www.sasview.org/sasmodels/
Before following the conversion instructions below, it is worth reading the documentation at http://www.sasview.org/sasmodels/api/generate.html#module-sasmodels.generate which describes the structure of a model.
CREATE NEW MODEL FILES.
In the sasmodels/models directory, copy the appropriate files using the examples above to mymodel.py and mymodel.c as required where “mymodel’ is the NEW name for the model to be moved. Please follow new naming rules:
- No capitalization and thus no CamelCase. If necessary use underscore to separate (i.e. barbell not BarBell or broad_peak not BroadPeak)
- Remove “model” from the name (i.e. barbell not BarBellModel)
EDIT NEW MODEL FILES
Cut and paste appropriate sections from old model into new sasmodels in appropriate places. Fill out all required sections. Most of the magic is done in the python file. Only the computation section (mainly the Iq method etc) will be either in the python file or the c file as described in the computation section below.
- First lengthy docstring starts with an r (for raw) and three sets of quotes to start the doc string and ends with a second set of 3 quotes. This is where the FULL documentation for the model goes (to be picked up by sphinx). Paste the model documentation from the appropriate section of model_functions.rst (found at src/sas/models/media/model_functions.rst) here. For example, for the BarBellModel, search for BarBellModel in the rst file then copy everything after the *2.x.x. ModelNameModel. Edit the result as follows:
- replace *2.x.x.x. Definition ** with Definition followed by a line of 10 dashes.
- wherever possible try to replace images of math functions with Latex. you can use the live demo Mathjax page (http://www.mathjax.org/) to make sure the equation looks as expected. also a lot of the Latex code can be taken from (or edited) from the PDF document created by Paul Kienzle: http://sasview.org/attachment/wiki/SasModels%20Work%20Package/Equations.docx.pdf.
- remove the table of parameters which will get autogenerated
- name = mymodel. Use the name of the file as described above in 1.
- title is a short tool tip description of the model. This is a new value to be used for tooltip for example. Make-up something appropriate but short (one line).
- description doc string. Cut and paste the self.description string from the SasView model header in srs/sas/models/include. This gives a brief description of the equation and the parameters without the need to read the entire model documentation.
- parameters. This is where the parameters get defined. The syntax should be obvious from the default. Copy the parameters from the model header file srs/sas/models/include
- PARAMETER NAMES: VERY IMPORTANT. We are trying to make the model parameter more consistent between models. So solvent sld for example should have exactly the same name in every model. Current list of new parameters is:
- radius = radius
- sld = scattering length density of particle
- solvent_sld = scattering length density of matrix
- cor_length = correlation length
- exp = exponent (example: porod_exp)
- peak_pos = q_peak or q0 etc
- lower and upper limits can be any number or -inf or inf
- add limits where required; the sasview models don't usually define them
- the limits will show up as the default limits for the fit, making it easy for example to force the radius to always be greater than zero.
- type can take 3 values at this time: “”, “volume”, or “orientation”
- COMPUTATION
- Pure Python
- def Iq (this section does not exist for c models. It is replaced by the list of c files to call)
- def Iqxy. If this model does not have an oriented form just set it equal to the square root of the sum of Iq(x) squared and Iq(y) squared.
- src/sas/models contains the pure python models, mixed together with the python + C models.
- Python + C
- model Iq, Iqxy are defined in src/sas/models/c_extension/c_models
- supporting scattering calculations are defined in src/sas/models/c_extension/libigor
- special functions are defined in src/sas/models/c_extension/cephes. With model definitions you are limited to the simple math functions defined in opencl
- common functions should be moved into their own file, such as lib/J1.c for the bessel function J1.
- in place of the above methods point to the C source files needed. This will be a list of any lib files needed, followed by the model.c file, where model is the same name as given to the python model.py. For example:
source = ["lib/J1.c", "lib/gauss76.c", "my_model.c"]
- the c file must contain the Iq and Iqxy methods. These and any other functions defined (e.g. form_volume, radius, etc) must be defined as doubles in the first lines of the file.
- Pure Python
- For certain models, such as those that can be multiplied by a structure factor, the ER attribute should be set to the Equivalent Radius (of a sphere).
- For certain models, namely core shell type models, the VR attribute returns the volume ratio for the core-shell.
- demo is a dictionary containing the value of each parameter as given in the rst documentation. Make sure to enter the appropriate values from that documentation. This will then be used to generate the example curve in said documentation.
- oldname is the name for this model used in SasView. Make sure to put the correct original name. This is required for the transition to allow compatibility and to test that the models are equivalent.
- oldpars is the name of the parameters as used in SasView. For each parameter give the name of the parameter as used in the original SasView code version of this model. Again this is required for the transition.
- tests section (for unit test purposes) VERY IMPORTANT. Syntax: test is a list of lists. each list is one test and contains, in order,
- a dictionary of parameter values. This can be {} using the default parameters, or filled with some parameters that will be different from the default ({‘radius’:10.0, ‘sld’:4}) unlisted parameters will be given the default values.
- the input q value or tuple of qx, qy values
- the output Iq or Iqxy expected of the model for the parameters and q value given
- inputs and outputs can also be lists if you have several values to test for the same model parameters
- for ER and VR, give the inputs as 'ER' and 'VR' respectively
- include at least one test for each model. Please make sure that the answer value is correct (i.e. not a random number please)
- to summarize:
tests = [ [ {parameters}, q, I(q)], [ {parameters}, [q], [I(q)] ], [ {parameters}, [q1, q2, ...], [I(q1), I(q2), ...]], [ {parameters}, (qx, qy), I(qx, Iqy)], [ {parameters}, [(qx1, qy1), (qx2, qy2), ...], [I(qx1,qy1), I(qx2,qy2), ...]], [ {parameters}, 'ER', ER(pars) ], [ {parameters}, 'VR', VR(pars) ], ]
where
parameters = {'k1': v1, 'k2': v2, ...}
TEST YOUR NEWLY CONVERTED MODEL
Test your new model by runing compare.py to verify that the converted model is giving the same results as it did in SasView? prior to conversion. In order to do this, you need either a version of sasview installed in your python path, or a built sasview in a checked out directory at the same level as the checked out sasmodels repository.
If the latter, you need to add the sasview build directory to your PYTHONPATH or use compare.sh which will do so for you.
The first thing to test is that you are getting the same answer as SasView for the 1D version of the model. This is done with:
./compare.sh -1d modelname
This will result in some comparison metrics between the openCL implementation (if installed - should revert to using ctypes if no OpenCL is installed) and a plot of the two calculations and a comparison plot.
If the model has 2D orientational calculation, then you should additionally test with:
./compare.sh -2d modelname
Brief help for the comparison script can be obtained by just running ./compare.sh
FINISHING
Once compare passes properly and everything is done edit the models table to indicate that the conversion is complete