Changeset dd60b45 in sasview

Timestamp:

Jan 5, 2012 11:01:26 AM (13 years ago)

Author:

Mathieu Doucet <doucetm@…>

Branches:

master, ESS_GUI, ESS_GUI_Docs, ESS_GUI_batch_fitting, ESS_GUI_bumps_abstraction, ESS_GUI_iss1116, ESS_GUI_iss879, ESS_GUI_iss959, ESS_GUI_opencl, ESS_GUI_ordering, ESS_GUI_sync_sascalc, costrafo411, magnetic_scatt, release-4.1.1, release-4.1.2, release-4.2.2, release_4.0.1, ticket-1009, ticket-1094-headless, ticket-1242-2d-resolution, ticket-1243, ticket-1249, ticket885, unittest-saveload

Children:

a8eab1c

Parents:

2d1b700

Message:

refl_adv model refactor

Location:

sansmodels/src

Files:

• c_extensions/refl_adv.c (deleted)
• c_extensions/refl_adv.h (modified) (1 diff)
• c_models/models.hh (modified) (1 diff)
• c_models/refl_adv.cpp (modified) (5 diffs)
• python_wrapper/CReflAdvModel.cpp (deleted)

sansmodels/src/c_extensions/refl_adv.h

@@ -3 +3 @@
 #if !defined(o_h)
 #define refl_adv_h
+#include "parameters.hh"
 
 /**
  * Structure definition for sphere parameters
  */
- //[PYTHONCLASS] = ReflAdvModel
- //[DISP_PARAMS] = thick_inter0
- //[DESCRIPTION] =<text>Calculate neutron reflectivity using the Parratt iterative formula
- //                             Parameters:
- //                             background:background
- //                             scale: scale factor
- //                             sld_bottom0: the SLD of the substrate
- //                             sld_medium: the SLD of the incident medium
- //                                     or superstrate
- //                             sld_flatN: the SLD of the flat region of
- //                                     the N'th layer
- //                             thick_flatN: the thickness of the flat
- //                                     region of the N'th layer
- //                             func_interN: the function used to describe
- //                                     the interface of the N'th layer
- //                             nu_interN: the coefficient for the func_interN
- //                             thick_interN: the thickness of the interface
- //                                     of the N'th layer
- //                             Note: the layer number starts to increase
- //                                     from the bottom (substrate) to the top.
- //             </text>
- //[FIXED]=  <text></text>
- //[NON_FITTABLE_PARAMS]= <text>n_layers;func_inter0;func_inter1;func_inter2;func_inter3;func_inter4;func_inter5;func_inter5;func_inter7;func_inter8;func_inter9;func_inter10 </text>
- //[ORIENTATION_PARAMS]= <text> </text>
-
-typedef struct {
-        /// number of layers
-        //  [DEFAULT]=n_layers=1
-        int n_layers;
-    /// Scale factor
-    //  [DEFAULT]=scale= 1.0
-        double scale;
-    /// thick_inter0 [A]
-    //  [DEFAULT]=thick_inter0=50.0 [A]
-        double thick_inter0;
-        ///     func_inter0
-        //  [DEFAULT]=func_inter0= 0
-        double func_inter0;
-        ///     sld_bottom0 [1/A^(2)]
-        //  [DEFAULT]=sld_bottom0= 2.07e-6 [1/A^(2)]
-        double sld_bottom0;
-        ///     sld_medium [1/A^(2)]
-        //  [DEFAULT]=sld_medium= 1.0e-6 [1/A^(2)]
-        double sld_medium;
-        /// Background
-        //  [DEFAULT]=background=0
-        double background;
-
-    //  [DEFAULT]=sld_flat1=4.0e-06 [1/A^(2)]
-    double sld_flat1;
-    //  [DEFAULT]=sld_flat2=3.5e-06 [1/A^(2)]
-    double sld_flat2;
-    //  [DEFAULT]=sld_flat3=4.0e-06 [1/A^(2)]
-    double sld_flat3;
-    //  [DEFAULT]=sld_flat4=3.5e-06 [1/A^(2)]
-    double sld_flat4;
-    //  [DEFAULT]=sld_flat5=4.0e-06 [1/A^(2)]
-    double sld_flat5;
-    //  [DEFAULT]=sld_flat6=3.5e-06 [1/A^(2)]
-    double sld_flat6;
-    //  [DEFAULT]=sld_flat7=4.0e-06 [1/A^(2)]
-    double sld_flat7;
-    //  [DEFAULT]=sld_flat8=3.5e-06 [1/A^(2)]
-    double sld_flat8;
-    //  [DEFAULT]=sld_flat9=4.0e-06 [1/A^(2)]
-    double sld_flat9;
-    //  [DEFAULT]=sld_flat10=3.5e-06 [1/A^(2)]
-    double sld_flat10;
-
-    //  [DEFAULT]=thick_inter1=50 [A]
-    double thick_inter1;
-    //  [DEFAULT]=thick_inter2=50 [A]
-    double thick_inter2;
-    //  [DEFAULT]=thick_inter3=50 [A]
-    double thick_inter3;
-    //  [DEFAULT]=thick_inter4=50 [A]
-    double thick_inter4;
-    //  [DEFAULT]=thick_inter5=50 [A]
-    double thick_inter5;
-    //  [DEFAULT]=thick_inter6=50 [A]
-    double thick_inter6;
-    //  [DEFAULT]=thick_inter7=50 [A]
-    double thick_inter7;
-    //  [DEFAULT]=thick_inter8=50 [A]
-    double thick_inter8;
-    //  [DEFAULT]=thick_inter9=50 [A]
-    double thick_inter9;
-    //  [DEFAULT]=thick_inter10=50 [A]
-    double thick_inter10;
-
-    //  [DEFAULT]=thick_flat1=100 [A]
-    double thick_flat1;
-    //  [DEFAULT]=thick_flat2=100 [A]
-    double thick_flat2;
-    //  [DEFAULT]=thick_flat3=100 [A]
-    double thick_flat3;
-    //  [DEFAULT]=thick_flat4=100 [A]
-    double thick_flat4;
-    //  [DEFAULT]=thick_flat5=100 [A]
-    double thick_flat5;
-    //  [DEFAULT]=thick_flat6=100 [A]
-    double thick_flat6;
-    //  [DEFAULT]=thick_flat7=100 [A]
-    double thick_flat7;
-    //  [DEFAULT]=thick_flat8=100 [A]
-    double thick_flat8;
-    //  [DEFAULT]=thick_flat9=100 [A]
-    double thick_flat9;
-    //  [DEFAULT]=thick_flat10=100 [A]
-    double thick_flat10;
-
-    //  [DEFAULT]=func_inter1=0
-    double func_inter1;
-    //  [DEFAULT]=func_inter2=0
-    double func_inter2;
-    //  [DEFAULT]=func_inter3=0
-    double func_inter3;
-    //  [DEFAULT]=func_inter4=0
-    double func_inter4;
-    //  [DEFAULT]=func_inter5=0
-    double func_inter5;
-    //  [DEFAULT]=func_inter6=0
-    double func_inter6;
-    //  [DEFAULT]=func_inter7=0
-    double func_inter7;
-    //  [DEFAULT]=func_inter8=0
-    double func_inter8;
-    //  [DEFAULT]=func_inter9=0
-    double func_inter9;
-    //  [DEFAULT]=func_inter10=0
-    double func_inter10;
-
-    //  [DEFAULT]=sldIM_flat1=0 [1/A^(2)]
-    double sldIM_flat1;
-    //  [DEFAULT]=sldIM_flat2=0 [1/A^(2)]
-    double sldIM_flat2;
-    //  [DEFAULT]=sldIM_flat3=0 [1/A^(2)]
-    double sldIM_flat3;
-    //  [DEFAULT]=sldIM_flat4=0 [1/A^(2)]
-    double sldIM_flat4;
-    //  [DEFAULT]=sldIM_flat5=0 [1/A^(2)]
-    double sldIM_flat5;
-    //  [DEFAULT]=sldIM_flat6=0 [1/A^(2)]
-    double sldIM_flat6;
-    //  [DEFAULT]=sldIM_flat7=0 [1/A^(2)]
-    double sldIM_flat7;
-    //  [DEFAULT]=sldIM_flat8=0 [1/A^(2)]
-    double sldIM_flat8;
-    //  [DEFAULT]=sldIM_flat9=0 [1/A^(2)]
-    double sldIM_flat9;
-    //  [DEFAULT]=sldIM_flat10=0 [1/A^(2)]
-    double sldIM_flat10;
-
-    //  [DEFAULT]=nu_inter1=2.5
-    double nu_inter1;
-    //  [DEFAULT]=nu_inter2=2.5
-    double nu_inter2;
-    //  [DEFAULT]=nu_inter3=2.5
-    double nu_inter3;
-    //  [DEFAULT]=nu_inter4=2.5
-    double nu_inter4;
-    //  [DEFAULT]=nu_inter5=2.5
-    double nu_inter5;
-    //  [DEFAULT]=nu_inter6=2.5
-    double nu_inter6;
-    //  [DEFAULT]=nu_inter7=2.5
-    double nu_inter7;
-    //  [DEFAULT]=nu_inter8=2.5
-    double nu_inter8;
-    //  [DEFAULT]=nu_inter9=2.5
-    double nu_inter9;
-    //  [DEFAULT]=nu_inter10=2.5
-    double nu_inter10;
-
-
-    //  [DEFAULT]=sldIM_sub0=0
-    double sldIM_sub0;
-    //  [DEFAULT]=sldIM_medium=0
-    double sldIM_medium;
-    //  [DEFAULT]=npts_inter=21.0
-    double npts_inter;
-    //  [DEFAULT]=nu_inter0=2.5
-    double nu_inter0;
-} ReflAdvParameters;
-
-double re_adv_kernel(double dq[], double q);
-
-/// 1D scattering function
-double refl_adv_analytical_1D(ReflAdvParameters *pars, double q);
-
-/// 2D scattering function
-double refl_adv_analytical_2D(ReflAdvParameters *pars, double q, double phi);
-double refl_adv_analytical_2DXY(ReflAdvParameters *pars, double qx, double qy);
+//[PYTHONCLASS] = ReflAdvModel
+//[DISP_PARAMS] = thick_inter0
+//[DESCRIPTION] =<text>Calculate neutron reflectivity using the Parratt iterative formula
+//                              Parameters:
+//                              background:background
+//                              scale: scale factor
+//                              sld_bottom0: the SLD of the substrate
+//                              sld_medium: the SLD of the incident medium
+//                                      or superstrate
+//                              sld_flatN: the SLD of the flat region of
+//                                      the N'th layer
+//                              thick_flatN: the thickness of the flat
+//                                      region of the N'th layer
+//                              func_interN: the function used to describe
+//                                      the interface of the N'th layer
+//                              nu_interN: the coefficient for the func_interN
+//                              thick_interN: the thickness of the interface
+//                                      of the N'th layer
+//                              Note: the layer number starts to increase
+//                                      from the bottom (substrate) to the top.
+//              </text>
+//[FIXED]=  <text></text>
+//[NON_FITTABLE_PARAMS]= <text>n_layers;func_inter0;func_inter1;func_inter2;func_inter3;func_inter4;func_inter5;func_inter5;func_inter7;func_inter8;func_inter9;func_inter10 </text>
+//[ORIENTATION_PARAMS]= <text> </text>
+
+class ReflAdvModel{
+public:
+  // Model parameters
+  /// number of layers
+  //  [DEFAULT]=n_layers=1
+  Parameter n_layers;
+  /// Scale factor
+  //  [DEFAULT]=scale= 1.0
+  Parameter scale;
+  /// thick_inter0 [A]
+  //  [DEFAULT]=thick_inter0=50.0 [A]
+  Parameter thick_inter0;
+  /// func_inter0
+  //  [DEFAULT]=func_inter0= 0
+  Parameter func_inter0;
+  /// sld_bottom0 [1/A^(2)]
+  //  [DEFAULT]=sld_bottom0= 2.07e-6 [1/A^(2)]
+  Parameter sld_bottom0;
+  /// sld_medium [1/A^(2)]
+  //  [DEFAULT]=sld_medium= 1.0e-6 [1/A^(2)]
+  Parameter sld_medium;
+  /// Background
+  //  [DEFAULT]=background=0
+  Parameter background;
+
+  //  [DEFAULT]=sld_flat1=4.0e-06 [1/A^(2)]
+  Parameter sld_flat1;
+  //  [DEFAULT]=sld_flat2=3.5e-06 [1/A^(2)]
+  Parameter sld_flat2;
+  //  [DEFAULT]=sld_flat3=4.0e-06 [1/A^(2)]
+  Parameter sld_flat3;
+  //  [DEFAULT]=sld_flat4=3.5e-06 [1/A^(2)]
+  Parameter sld_flat4;
+  //  [DEFAULT]=sld_flat5=4.0e-06 [1/A^(2)]
+  Parameter sld_flat5;
+  //  [DEFAULT]=sld_flat6=3.5e-06 [1/A^(2)]
+  Parameter sld_flat6;
+  //  [DEFAULT]=sld_flat7=4.0e-06 [1/A^(2)]
+  Parameter sld_flat7;
+  //  [DEFAULT]=sld_flat8=3.5e-06 [1/A^(2)]
+  Parameter sld_flat8;
+  //  [DEFAULT]=sld_flat9=4.0e-06 [1/A^(2)]
+  Parameter sld_flat9;
+  //  [DEFAULT]=sld_flat10=3.5e-06 [1/A^(2)]
+  Parameter sld_flat10;
+
+  //  [DEFAULT]=thick_inter1=50 [A]
+  Parameter thick_inter1;
+  //  [DEFAULT]=thick_inter2=50 [A]
+  Parameter thick_inter2;
+  //  [DEFAULT]=thick_inter3=50 [A]
+  Parameter thick_inter3;
+  //  [DEFAULT]=thick_inter4=50 [A]
+  Parameter thick_inter4;
+  //  [DEFAULT]=thick_inter5=50 [A]
+  Parameter thick_inter5;
+  //  [DEFAULT]=thick_inter6=50 [A]
+  Parameter thick_inter6;
+  //  [DEFAULT]=thick_inter7=50 [A]
+  Parameter thick_inter7;
+  //  [DEFAULT]=thick_inter8=50 [A]
+  Parameter thick_inter8;
+  //  [DEFAULT]=thick_inter9=50 [A]
+  Parameter thick_inter9;
+  //  [DEFAULT]=thick_inter10=50 [A]
+  Parameter thick_inter10;
+
+  //  [DEFAULT]=thick_flat1=100 [A]
+  Parameter thick_flat1;
+  //  [DEFAULT]=thick_flat2=100 [A]
+  Parameter thick_flat2;
+  //  [DEFAULT]=thick_flat3=100 [A]
+  Parameter thick_flat3;
+  //  [DEFAULT]=thick_flat4=100 [A]
+  Parameter thick_flat4;
+  //  [DEFAULT]=thick_flat5=100 [A]
+  Parameter thick_flat5;
+  //  [DEFAULT]=thick_flat6=100 [A]
+  Parameter thick_flat6;
+  //  [DEFAULT]=thick_flat7=100 [A]
+  Parameter thick_flat7;
+  //  [DEFAULT]=thick_flat8=100 [A]
+  Parameter thick_flat8;
+  //  [DEFAULT]=thick_flat9=100 [A]
+  Parameter thick_flat9;
+  //  [DEFAULT]=thick_flat10=100 [A]
+  Parameter thick_flat10;
+
+  //  [DEFAULT]=func_inter1=0
+  Parameter func_inter1;
+  //  [DEFAULT]=func_inter2=0
+  Parameter func_inter2;
+  //  [DEFAULT]=func_inter3=0
+  Parameter func_inter3;
+  //  [DEFAULT]=func_inter4=0
+  Parameter func_inter4;
+  //  [DEFAULT]=func_inter5=0
+  Parameter func_inter5;
+  //  [DEFAULT]=func_inter6=0
+  Parameter func_inter6;
+  //  [DEFAULT]=func_inter7=0
+  Parameter func_inter7;
+  //  [DEFAULT]=func_inter8=0
+  Parameter func_inter8;
+  //  [DEFAULT]=func_inter9=0
+  Parameter func_inter9;
+  //  [DEFAULT]=func_inter10=0
+  Parameter func_inter10;
+
+  //  [DEFAULT]=sldIM_flat1=0 [1/A^(2)]
+  Parameter sldIM_flat1;
+  //  [DEFAULT]=sldIM_flat2=0 [1/A^(2)]
+  Parameter sldIM_flat2;
+  //  [DEFAULT]=sldIM_flat3=0 [1/A^(2)]
+  Parameter sldIM_flat3;
+  //  [DEFAULT]=sldIM_flat4=0 [1/A^(2)]
+  Parameter sldIM_flat4;
+  //  [DEFAULT]=sldIM_flat5=0 [1/A^(2)]
+  Parameter sldIM_flat5;
+  //  [DEFAULT]=sldIM_flat6=0 [1/A^(2)]
+  Parameter sldIM_flat6;
+  //  [DEFAULT]=sldIM_flat7=0 [1/A^(2)]
+  Parameter sldIM_flat7;
+  //  [DEFAULT]=sldIM_flat8=0 [1/A^(2)]
+  Parameter sldIM_flat8;
+  //  [DEFAULT]=sldIM_flat9=0 [1/A^(2)]
+  Parameter sldIM_flat9;
+  //  [DEFAULT]=sldIM_flat10=0 [1/A^(2)]
+  Parameter sldIM_flat10;
+
+  //  [DEFAULT]=nu_inter1=2.5
+  Parameter nu_inter1;
+  //  [DEFAULT]=nu_inter2=2.5
+  Parameter nu_inter2;
+  //  [DEFAULT]=nu_inter3=2.5
+  Parameter nu_inter3;
+  //  [DEFAULT]=nu_inter4=2.5
+  Parameter nu_inter4;
+  //  [DEFAULT]=nu_inter5=2.5
+  Parameter nu_inter5;
+  //  [DEFAULT]=nu_inter6=2.5
+  Parameter nu_inter6;
+  //  [DEFAULT]=nu_inter7=2.5
+  Parameter nu_inter7;
+  //  [DEFAULT]=nu_inter8=2.5
+  Parameter nu_inter8;
+  //  [DEFAULT]=nu_inter9=2.5
+  Parameter nu_inter9;
+  //  [DEFAULT]=nu_inter10=2.5
+  Parameter nu_inter10;
+
+
+  //  [DEFAULT]=sldIM_sub0=0
+  Parameter sldIM_sub0;
+  //  [DEFAULT]=sldIM_medium=0
+  Parameter sldIM_medium;
+  //  [DEFAULT]=npts_inter=21.0
+  Parameter npts_inter;
+  //  [DEFAULT]=nu_inter0=2.5
+  Parameter nu_inter0;
+
+  // Constructor
+  ReflAdvModel();
+
+  // Operators to get I(Q)
+  double operator()(double q);
+  double operator()(double qx, double qy);
+  double calculate_ER();
+  double evaluate_rphi(double q, double phi);
+};
 
 #endif

sansmodels/src/c_models/models.hh

@@ -27 +27 @@
 using namespace std;
 
-class ReflAdvModel{
-public:
-        // Model parameters
-        Parameter n_layers;
-        Parameter scale;
-        Parameter thick_inter0;
-        Parameter func_inter0;
-        Parameter sld_bottom0;
-        Parameter sld_medium;
-        Parameter background;
-
-        Parameter sld_flat1;
-        Parameter sld_flat2;
-        Parameter sld_flat3;
-        Parameter sld_flat4;
-        Parameter sld_flat5;
-        Parameter sld_flat6;
-        Parameter sld_flat7;
-        Parameter sld_flat8;
-        Parameter sld_flat9;
-        Parameter sld_flat10;
-
-        Parameter thick_inter1;
-        Parameter thick_inter2;
-        Parameter thick_inter3;
-        Parameter thick_inter4;
-        Parameter thick_inter5;
-        Parameter thick_inter6;
-        Parameter thick_inter7;
-        Parameter thick_inter8;
-        Parameter thick_inter9;
-        Parameter thick_inter10;
-
-        Parameter thick_flat1;
-        Parameter thick_flat2;
-        Parameter thick_flat3;
-        Parameter thick_flat4;
-        Parameter thick_flat5;
-        Parameter thick_flat6;
-        Parameter thick_flat7;
-        Parameter thick_flat8;
-        Parameter thick_flat9;
-        Parameter thick_flat10;
-
-        Parameter func_inter1;
-        Parameter func_inter2;
-        Parameter func_inter3;
-        Parameter func_inter4;
-        Parameter func_inter5;
-        Parameter func_inter6;
-        Parameter func_inter7;
-        Parameter func_inter8;
-        Parameter func_inter9;
-        Parameter func_inter10;
-
-        Parameter sldIM_flat1;
-        Parameter sldIM_flat2;
-        Parameter sldIM_flat3;
-        Parameter sldIM_flat4;
-        Parameter sldIM_flat5;
-        Parameter sldIM_flat6;
-        Parameter sldIM_flat7;
-        Parameter sldIM_flat8;
-        Parameter sldIM_flat9;
-        Parameter sldIM_flat10;
-
-        Parameter nu_inter1;
-        Parameter nu_inter2;
-        Parameter nu_inter3;
-        Parameter nu_inter4;
-        Parameter nu_inter5;
-        Parameter nu_inter6;
-        Parameter nu_inter7;
-        Parameter nu_inter8;
-        Parameter nu_inter9;
-        Parameter nu_inter10;
-
-        Parameter sldIM_sub0;
-        Parameter sldIM_medium;
-        Parameter npts_inter;
-        Parameter nu_inter0;
-
-        // Constructor
-        ReflAdvModel();
-
-        // Operators to get I(Q)
-        double operator()(double q);
-        double operator()(double qx, double qy);
-        double calculate_ER();
-        double evaluate_rphi(double q, double phi);
-};
+
 
 

sansmodels/src/c_models/refl_adv.cpp

@@ -1 +1 @@
 
 #include <math.h>
-#include "models.hh"
 #include "parameters.hh"
 #include <stdio.h>
+#include <stdlib.h>
+#include "refl_adv.h"
+
+extern "C" {
+#include "libmultifunc/librefl.h"
+}
+
 using namespace std;
 
-extern "C" {
-        #include "refl_adv.h"
-}
-
+#define lamda 4.62
+
+
+double re_adv_kernel(double dp[], double q) {
+  int n = dp[0];
+  int i,j;
+  double nsl;
+
+  double scale = dp[1];
+  double thick_inter_sub = dp[2];
+  double sld_sub = dp[4];
+  double sld_super = dp[5];
+  double background = dp[6];
+  double npts = dp[69]; //number of sub_layers in each interface
+
+  double total_thick=0.0;
+
+  int n_s;
+  double sld_i,sldim_i,dz,phi,R,ko2;
+  double pi;
+
+  int* fun_type;
+  double* sld;
+  double* sld_im;
+  double* thick_inter;
+  double* thick;
+  double* fun_coef;
+  complex  phi1,alpha,alpha2,kn,fnm,fnp,rn,Xn,nn,nn2,an,nnp1,one,two,n_sub,n_sup,knp1,Xnp1;
+
+  fun_type = (int*)malloc((n+2)*sizeof(int));
+  sld = (double*)malloc((n+2)*sizeof(double));
+  sld_im = (double*)malloc((n+2)*sizeof(double));
+  thick_inter = (double*)malloc((n+2)*sizeof(double));
+  thick = (double*)malloc((n+2)*sizeof(double));
+  fun_coef = (double*)malloc((n+2)*sizeof(double));
+
+  fun_type[0] = dp[3];
+  fun_coef[0] = fabs(dp[70]);
+  for (i =1; i<=n; i++){
+    sld[i] = dp[i+6];
+    thick_inter[i]= dp[i+16];
+    thick[i] = dp[i+26];
+    fun_type[i] = dp[i+36];
+    sld_im[i] = dp[i+46];
+    fun_coef[i] = fabs(dp[i+56]);
+    //printf("type_func2 =%g\n",fun_coef[i]);
+
+    total_thick += thick[i] + thick_inter[i];
+  }
+  sld[0] = sld_sub;
+  sld[n+1] = sld_super;
+  sld_im[0] = fabs(dp[1+66]);
+  sld_im[n+1] = fabs(dp[2+66]);
+  thick[0] = total_thick/5.0;
+  thick[n+1] = total_thick/5.0;
+  thick_inter[0] = thick_inter_sub;
+  thick_inter[n+1] = 0.0;
+  fun_coef[n+1] = 0.0;
+
+  nsl=npts;//21.0; //nsl = Num_sub_layer:  MUST ODD number in double //no other number works now
+
+  pi = 4.0*atan(1.0);
+  one = cassign(1.0,0.0);
+  Xn = cassign(0.0,0.0);
+  two = cassign(0.0,-2.0);
+
+  //Checking if floor is available.
+  //no imaginary sld inputs in this function yet
+  n_sub=cassign(1.0-sld_sub*pow(lamda,2.0)/(2.0*pi),pow(lamda,2.0)/(2.0*pi)*sld_im[0]);
+  n_sup=cassign(1.0-sld_super*pow(lamda,2.0)/(2.0*pi),pow(lamda,2.0)/(2.0*pi)*sld_im[n+1]);
+  ko2 = pow(2.0*pi/lamda,2.0);
+
+  phi = asin(lamda*q/(4.0*pi));
+  phi1 = cplx_div(rcmult(phi,one),n_sup);
+  alpha = cplx_mult(n_sup,cplx_cos(phi1));
+  alpha2 = cplx_mult(alpha,alpha);
+
+  nnp1=n_sub;
+  knp1=cplx_sqrt(rcmult(ko2,cplx_sub(cplx_mult(nnp1,nnp1),alpha2)));  //nnp1*ko*sin(phinp1)
+  Xnp1=cassign(0.0,0.0);
+  dz = 0.0;
+  // iteration for # of layers +sub from the top
+  for (i=1;i<=n+1; i++){
+    //if (fun_coef[i]==0.0)
+    //  // this condition protects an error in numerical multiplication
+    //  fun_coef[i] = 1e-14;
+    //iteration for 9 sub-layers
+    for (j=0;j<2;j++){
+      for (n_s=0;n_s<nsl; n_s++){
+        // for flat layer
+        if (j==1){
+          if (i==n+1)
+            break;
+          dz = thick[i];
+          sld_i = sld[i];
+          sldim_i = sld_im[i];
+        }
+        // for interface
+        else{
+          dz = thick_inter[i-1]/nsl;
+          if (sld[i-1] == sld[i]){
+            sld_i = sld[i];
+          }
+          else{
+            sld_i = intersldfunc(fun_type[i-1],nsl, n_s+0.5, fun_coef[i-1], sld[i-1], sld[i]);
+          }
+          if (sld_im[i-1] == sld_im[i]){
+            sldim_i = sld_im[i];
+          }
+          else{
+            sldim_i = intersldfunc(fun_type[i-1],nsl, n_s+0.5, fun_coef[i-1], sld_im[i-1], sld_im[i]);
+          }
+        }
+        nn = cassign(1.0-sld_i*pow(lamda,2.0)/(2.0*pi),pow(lamda,2.0)/(2.0*pi)*sldim_i);
+        nn2=cplx_mult(nn,nn);
+
+        kn=cplx_sqrt(rcmult(ko2,cplx_sub(nn2,alpha2)));        //nn*ko*sin(phin)
+        an=cplx_exp(rcmult(dz,cplx_mult(two,kn)));
+
+        fnm=cplx_sub(kn,knp1);
+        fnp=cplx_add(kn,knp1);
+        rn=cplx_div(fnm,fnp);
+        Xn=cplx_mult(an,cplx_div(cplx_add(rn,Xnp1),cplx_add(one,cplx_mult(rn,Xnp1))));    //Xn=an*((rn+Xnp1*anp1)/(1+rn*Xnp1*anp1))
+
+        Xnp1=Xn;
+        knp1=kn;
+        // no for-loop for flat layer
+        if (j==1)
+          break;
+      }
+    }
+  }
+  R=pow(Xn.re,2.0)+pow(Xn.im,2.0);
+  // This temperarily fixes the total reflection for Rfunction and linear.
+  // ToDo: Show why it happens that Xn.re=0 and Xn.im >1!
+  if (Xn.im == 0.0 || R > 1){
+    R=1.0;
+  }
+  R *= scale;
+  R += background;
+
+  free(fun_type);
+  free(sld);
+  free(sld_im);
+  free(thick_inter);
+  free(thick);
+  free(fun_coef);
+
+  return R;
+
+}
 ReflAdvModel :: ReflAdvModel() {
-        n_layers = Parameter(1.0);
-        scale = Parameter(1.0);
-        thick_inter0 = Parameter(1.0);
-        func_inter0 = Parameter(0);
-        sld_bottom0 = Parameter(2.07e-06);
-        sld_medium = Parameter(1.0e-06);
-    background = Parameter(0.0);
-
-
-    sld_flat1 = Parameter(2.7e-06);
-    sld_flat2 = Parameter(3.5e-06);
-    sld_flat3 = Parameter(4.0e-06);
-    sld_flat4 = Parameter(3.5e-06);
-    sld_flat5 = Parameter(4.0e-06);
-    sld_flat6 = Parameter(3.5e-06);
-    sld_flat7 = Parameter(4.0e-06);
-    sld_flat8 = Parameter(3.5e-06);
-    sld_flat9 = Parameter(4.0e-06);
-    sld_flat10 = Parameter(3.5e-06);
-
-
-    thick_inter1 = Parameter(1.0);
-    thick_inter2 = Parameter(1.0);
-    thick_inter3 = Parameter(1.0);
-    thick_inter4 = Parameter(1.0);
-    thick_inter5 = Parameter(1.0);
-    thick_inter6 = Parameter(1.0);
-    thick_inter7 = Parameter(1.0);
-    thick_inter8 = Parameter(1.0);
-    thick_inter9 = Parameter(1.0);
-    thick_inter10 = Parameter(1.0);
-
-
-    thick_flat1 = Parameter(15.0);
-    thick_flat2 = Parameter(100.0);
-    thick_flat3 = Parameter(100.0);
-    thick_flat4 = Parameter(100.0);
-    thick_flat5 = Parameter(100.0);
-    thick_flat6 = Parameter(100.0);
-    thick_flat7 = Parameter(100.0);
-    thick_flat8 = Parameter(100.0);
-    thick_flat9 = Parameter(100.0);
-    thick_flat10 = Parameter(100.0);
-
-
-    func_inter1 = Parameter(0);
-    func_inter2 = Parameter(0);
-    func_inter3 = Parameter(0);
-    func_inter4 = Parameter(0);
-    func_inter5 = Parameter(0);
-    func_inter6 = Parameter(0);
-    func_inter7 = Parameter(0);
-    func_inter8 = Parameter(0);
-    func_inter9 = Parameter(0);
-    func_inter10 = Parameter(0);
-
-    sldIM_flat1 = Parameter(0);
-    sldIM_flat2 = Parameter(0);
-    sldIM_flat3 = Parameter(0);
-    sldIM_flat4 = Parameter(0);
-    sldIM_flat5 = Parameter(0);
-    sldIM_flat6 = Parameter(0);
-    sldIM_flat7 = Parameter(0);
-    sldIM_flat8 = Parameter(0);
-    sldIM_flat9 = Parameter(0);
-    sldIM_flat10 = Parameter(0);
-
-    nu_inter1 = Parameter(2.5);
-    nu_inter2 = Parameter(2.5);
-    nu_inter3 = Parameter(2.5);
-    nu_inter4 = Parameter(2.5);
-    nu_inter5 = Parameter(2.5);
-    nu_inter6 = Parameter(2.5);
-    nu_inter7 = Parameter(2.5);
-    nu_inter8 = Parameter(2.5);
-    nu_inter9 = Parameter(2.5);
-    nu_inter10 = Parameter(2.5);
-
-    sldIM_sub0 = Parameter(0.0);
-    sldIM_medium = Parameter(0.0);
-    npts_inter = Parameter(21.0);
-    nu_inter0 = Parameter(2.5);
+  n_layers = Parameter(1.0);
+  scale = Parameter(1.0);
+  thick_inter0 = Parameter(1.0);
+  func_inter0 = Parameter(0);
+  sld_bottom0 = Parameter(2.07e-06);
+  sld_medium = Parameter(1.0e-06);
+  background = Parameter(0.0);
+
+
+  sld_flat1 = Parameter(2.7e-06);
+  sld_flat2 = Parameter(3.5e-06);
+  sld_flat3 = Parameter(4.0e-06);
+  sld_flat4 = Parameter(3.5e-06);
+  sld_flat5 = Parameter(4.0e-06);
+  sld_flat6 = Parameter(3.5e-06);
+  sld_flat7 = Parameter(4.0e-06);
+  sld_flat8 = Parameter(3.5e-06);
+  sld_flat9 = Parameter(4.0e-06);
+  sld_flat10 = Parameter(3.5e-06);
+
+
+  thick_inter1 = Parameter(1.0);
+  thick_inter2 = Parameter(1.0);
+  thick_inter3 = Parameter(1.0);
+  thick_inter4 = Parameter(1.0);
+  thick_inter5 = Parameter(1.0);
+  thick_inter6 = Parameter(1.0);
+  thick_inter7 = Parameter(1.0);
+  thick_inter8 = Parameter(1.0);
+  thick_inter9 = Parameter(1.0);
+  thick_inter10 = Parameter(1.0);
+
+
+  thick_flat1 = Parameter(15.0);
+  thick_flat2 = Parameter(100.0);
+  thick_flat3 = Parameter(100.0);
+  thick_flat4 = Parameter(100.0);
+  thick_flat5 = Parameter(100.0);
+  thick_flat6 = Parameter(100.0);
+  thick_flat7 = Parameter(100.0);
+  thick_flat8 = Parameter(100.0);
+  thick_flat9 = Parameter(100.0);
+  thick_flat10 = Parameter(100.0);
+
+
+  func_inter1 = Parameter(0);
+  func_inter2 = Parameter(0);
+  func_inter3 = Parameter(0);
+  func_inter4 = Parameter(0);
+  func_inter5 = Parameter(0);
+  func_inter6 = Parameter(0);
+  func_inter7 = Parameter(0);
+  func_inter8 = Parameter(0);
+  func_inter9 = Parameter(0);
+  func_inter10 = Parameter(0);
+
+  sldIM_flat1 = Parameter(0);
+  sldIM_flat2 = Parameter(0);
+  sldIM_flat3 = Parameter(0);
+  sldIM_flat4 = Parameter(0);
+  sldIM_flat5 = Parameter(0);
+  sldIM_flat6 = Parameter(0);
+  sldIM_flat7 = Parameter(0);
+  sldIM_flat8 = Parameter(0);
+  sldIM_flat9 = Parameter(0);
+  sldIM_flat10 = Parameter(0);
+
+  nu_inter1 = Parameter(2.5);
+  nu_inter2 = Parameter(2.5);
+  nu_inter3 = Parameter(2.5);
+  nu_inter4 = Parameter(2.5);
+  nu_inter5 = Parameter(2.5);
+  nu_inter6 = Parameter(2.5);
+  nu_inter7 = Parameter(2.5);
+  nu_inter8 = Parameter(2.5);
+  nu_inter9 = Parameter(2.5);
+  nu_inter10 = Parameter(2.5);
+
+  sldIM_sub0 = Parameter(0.0);
+  sldIM_medium = Parameter(0.0);
+  npts_inter = Parameter(21.0);
+  nu_inter0 = Parameter(2.5);
 }
 
@@ -101 +254 @@
  */
 double ReflAdvModel :: operator()(double q) {
-        double dp[71];
-        // Fill parameter array for IGOR library
-        // Add the background after averaging
-        dp[0] = n_layers();
-        dp[1] = scale();
-        dp[2] = thick_inter0();
-        dp[3] = func_inter0();
-        dp[4] = sld_bottom0();
-        dp[5] = sld_medium();
-        dp[6] = background();
-
-        dp[7] = sld_flat1();
-        dp[8] = sld_flat2();
-        dp[9] = sld_flat3();
-        dp[10] = sld_flat4();
-        dp[11] = sld_flat5();
-        dp[12] = sld_flat6();
-        dp[13] = sld_flat7();
-        dp[14] = sld_flat8();
-        dp[15] = sld_flat9();
-        dp[16] = sld_flat10();
-
-        dp[17] = thick_inter1();
-        dp[18] = thick_inter2();
-        dp[19] = thick_inter3();
-        dp[20] = thick_inter4();
-        dp[21] = thick_inter5();
-        dp[22] = thick_inter6();
-        dp[23] = thick_inter7();
-        dp[24] = thick_inter8();
-        dp[25] = thick_inter9();
-        dp[26] = thick_inter10();
-
-        dp[27] = thick_flat1();
-        dp[28] = thick_flat2();
-        dp[29] = thick_flat3();
-        dp[30] = thick_flat4();
-        dp[31] = thick_flat5();
-        dp[32] = thick_flat6();
-        dp[33] = thick_flat7();
-        dp[34] = thick_flat8();
-        dp[35] = thick_flat9();
-        dp[36] = thick_flat10();
-
-        dp[37] = func_inter1();
-        dp[38] = func_inter2();
-        dp[39] = func_inter3();
-        dp[40] = func_inter4();
-        dp[41] = func_inter5();
-        dp[42] = func_inter6();
-        dp[43] = func_inter7();
-        dp[44] = func_inter8();
-        dp[45] = func_inter9();
-        dp[46] = func_inter10();
-
-        dp[47] = sldIM_flat1();
-        dp[48] = sldIM_flat2();
-        dp[49] = sldIM_flat3();
-        dp[50] = sldIM_flat4();
-        dp[51] = sldIM_flat5();
-        dp[52] = sldIM_flat6();
-        dp[53] = sldIM_flat7();
-        dp[54] = sldIM_flat8();
-        dp[55] = sldIM_flat9();
-        dp[56] = sldIM_flat10();
-
-        dp[57] = nu_inter1();
-        dp[58] = nu_inter2();
-        dp[59] = nu_inter3();
-        dp[60] = nu_inter4();
-        dp[61] = nu_inter5();
-        dp[62] = nu_inter6();
-        dp[63] = nu_inter7();
-        dp[64] = nu_inter8();
-        dp[65] = nu_inter9();
-        dp[66] = nu_inter10();
-
-        dp[67] = sldIM_sub0();
-        dp[68] = sldIM_medium();
-        dp[69] = npts_inter();
-        dp[70] = nu_inter0();
-        // Get the dispersion points for the radius
-        //vector<WeightPoint> weights_thick;
-        //thick_inter0.get_weights(weights_thick_inter0);
-
-
-        return re_adv_kernel(dp,q);
+  double dp[71];
+  // Fill parameter array for IGOR library
+  // Add the background after averaging
+  dp[0] = n_layers();
+  dp[1] = scale();
+  dp[2] = thick_inter0();
+  dp[3] = func_inter0();
+  dp[4] = sld_bottom0();
+  dp[5] = sld_medium();
+  dp[6] = background();
+
+  dp[7] = sld_flat1();
+  dp[8] = sld_flat2();
+  dp[9] = sld_flat3();
+  dp[10] = sld_flat4();
+  dp[11] = sld_flat5();
+  dp[12] = sld_flat6();
+  dp[13] = sld_flat7();
+  dp[14] = sld_flat8();
+  dp[15] = sld_flat9();
+  dp[16] = sld_flat10();
+
+  dp[17] = thick_inter1();
+  dp[18] = thick_inter2();
+  dp[19] = thick_inter3();
+  dp[20] = thick_inter4();
+  dp[21] = thick_inter5();
+  dp[22] = thick_inter6();
+  dp[23] = thick_inter7();
+  dp[24] = thick_inter8();
+  dp[25] = thick_inter9();
+  dp[26] = thick_inter10();
+
+  dp[27] = thick_flat1();
+  dp[28] = thick_flat2();
+  dp[29] = thick_flat3();
+  dp[30] = thick_flat4();
+  dp[31] = thick_flat5();
+  dp[32] = thick_flat6();
+  dp[33] = thick_flat7();
+  dp[34] = thick_flat8();
+  dp[35] = thick_flat9();
+  dp[36] = thick_flat10();
+
+  dp[37] = func_inter1();
+  dp[38] = func_inter2();
+  dp[39] = func_inter3();
+  dp[40] = func_inter4();
+  dp[41] = func_inter5();
+  dp[42] = func_inter6();
+  dp[43] = func_inter7();
+  dp[44] = func_inter8();
+  dp[45] = func_inter9();
+  dp[46] = func_inter10();
+
+  dp[47] = sldIM_flat1();
+  dp[48] = sldIM_flat2();
+  dp[49] = sldIM_flat3();
+  dp[50] = sldIM_flat4();
+  dp[51] = sldIM_flat5();
+  dp[52] = sldIM_flat6();
+  dp[53] = sldIM_flat7();
+  dp[54] = sldIM_flat8();
+  dp[55] = sldIM_flat9();
+  dp[56] = sldIM_flat10();
+
+  dp[57] = nu_inter1();
+  dp[58] = nu_inter2();
+  dp[59] = nu_inter3();
+  dp[60] = nu_inter4();
+  dp[61] = nu_inter5();
+  dp[62] = nu_inter6();
+  dp[63] = nu_inter7();
+  dp[64] = nu_inter8();
+  dp[65] = nu_inter9();
+  dp[66] = nu_inter10();
+
+  dp[67] = sldIM_sub0();
+  dp[68] = sldIM_medium();
+  dp[69] = npts_inter();
+  dp[70] = nu_inter0();
+  // Get the dispersion points for the radius
+  //vector<WeightPoint> weights_thick;
+  //thick_inter0.get_weights(weights_thick_inter0);
+
+
+  return re_adv_kernel(dp,q);
 }
 
@@ -197 +350 @@
  */
 double ReflAdvModel :: operator()(double qx, double qy) {
-        // For 2D set qy as q, ignoring qx.
-        double q = qy;//sqrt(qx*qx + qy*qy);
-        if (q < 0.0){
-                return 0.0;
-        }
-        return (*this).operator()(q);
+  // For 2D set qy as q, ignoring qx.
+  double q = qy;//sqrt(qx*qx + qy*qy);
+  if (q < 0.0){
+    return 0.0;
+  }
+  return (*this).operator()(q);
 }
 
@@ -213 +366 @@
  */
 double ReflAdvModel :: evaluate_rphi(double q, double phi) {
-        return (*this).operator()(q);
+  return (*this).operator()(q);
 }
 
@@ -221 +374 @@
  */
 double ReflAdvModel :: calculate_ER() {
-        //NOT implemented yet!!!
-        return 0.0;
-}
+  //NOT implemented yet!!!
+  return 0.0;
+}