Author: bugman
Date: Tue Jul 16 09:33:48 2013
New Revision: 20314
URL: http://svn.gna.org/viewcvs/relax?rev=20314&view=rev
Log:
Added support for the 'NS 2-site star red' model to the
relax_disp.select_model user function back end.
This is the model of the numerical solution for the 2-site Bloch-McConnell
equations using complex
conjugate matrices, whereby the simplification R20A = R20B is assumed.
This commit follows step 6 of the relaxation dispersion model addition
tutorial
(http://thread.gmane.org/gmane.science.nmr.relax.devel/3907).
Modified:
branches/relax_disp/specific_analyses/relax_disp/api.py
Modified: branches/relax_disp/specific_analyses/relax_disp/api.py
URL:
http://svn.gna.org/viewcvs/relax/branches/relax_disp/specific_analyses/relax_disp/api.py?rev=20314&r1=20313&r2=20314&view=diff
==============================================================================
--- branches/relax_disp/specific_analyses/relax_disp/api.py (original)
+++ branches/relax_disp/specific_analyses/relax_disp/api.py Tue Jul 16
09:33:48 2013
@@ -48,7 +48,7 @@
from specific_analyses.api_common import API_common
from specific_analyses.relax_disp.disp_data import average_intensity,
find_intensity_keys, loop_cluster, loop_frq, loop_frq_point,
loop_frq_point_key, loop_frq_point_time, loop_point, loop_time, relax_time,
return_cpmg_frqs, return_index_from_disp_point, return_index_from_frq,
return_key_from_disp_point_index, return_param_key_from_data,
return_r2eff_arrays, return_spin_lock_nu1, return_value_from_frq_index,
spin_ids_to_containers
from specific_analyses.relax_disp.parameters import assemble_param_vector,
assemble_scaling_matrix, disassemble_param_vector, linear_constraints,
loop_parameters, param_conversion, param_index_to_param_info, param_num
-from specific_analyses.relax_disp.variables import CPMG_EXP, FIXED_TIME_EXP,
MODEL_LIST_FULL, MODEL_LM63, MODEL_CR72, MODEL_DPL94, MODEL_IT99, MODEL_M61,
MODEL_M61B, MODEL_NOREX, MODEL_NS_2SITE_STAR, MODEL_R2EFF, R1RHO_EXP,
VAR_TIME_EXP
+from specific_analyses.relax_disp.variables import CPMG_EXP, FIXED_TIME_EXP,
MODEL_LIST_FULL, MODEL_LM63, MODEL_CR72, MODEL_DPL94, MODEL_IT99, MODEL_M61,
MODEL_M61B, MODEL_NOREX, MODEL_NS_2SITE_STAR, MODEL_NS_2SITE_STAR_RED,
MODEL_R2EFF, R1RHO_EXP, VAR_TIME_EXP
from target_functions.relax_disp import Dispersion
from user_functions.data import Uf_tables; uf_tables = Uf_tables()
from user_functions.objects import Desc_container
@@ -609,7 +609,7 @@
def _select_model(self, model=MODEL_R2EFF):
"""Set up the model for the relaxation dispersion analysis.
- @keyword model: The relaxation dispersion analysis type. This can
be one of 'R2eff', 'No Rex', 'LM63', 'CR72', 'IT99', 'M61', 'DPL94', 'M61
skew', 'NS 2-site star'.
+ @keyword model: The relaxation dispersion analysis type. This can
be one of 'R2eff', 'No Rex', 'LM63', 'CR72', 'IT99', 'M61', 'DPL94', 'M61
skew', 'NS 2-site star', 'NS 2-site star red'.
@type model: str
"""
@@ -701,6 +701,14 @@
params.append('r2a')
for frq in loop_frq():
params.append('r2b')
+ params += ['pA', 'dw', 'kex']
+
+ # NS 2-site star red model.
+ elif model == MODEL_NS_2SITE_STAR_RED:
+ print("The numerical solution for the 2-site Bloch-McConnell
equations using complex conjugate matrices, whereby the simplification R20A =
R20B is assumed.")
+ params = []
+ for frq in loop_frq():
+ params.append('r2')
params += ['pA', 'dw', 'kex']
# Invalid model.
r20314 - /branches/relax_disp/specific_analyses/relax_disp/api.py