| /dports/science/afni/afni-AFNI_21.3.16/src/ |
| H A D | model_linplusort.c | 28 float ** x_array, /* independent variable matrix */
94 float ** x_array, /* independent variable matrix */ in noise_model() argument
107 case 3: ts_array[2] = g1*x_array[2][1] + g0 + g2*x_array[2][2]; /* fall thru */ in noise_model()
108 case 2: ts_array[1] = g1*x_array[1][1] + g0 + g2*x_array[1][2]; /* fall thru */ in noise_model()
109 case 1: ts_array[0] = g1*x_array[0][1] + g0 + g2*x_array[0][2]; break ; in noise_model()
112 ts_array[it ] = g1*x_array[it ][1] + g0 + g2*x_array[it ][2]; in noise_model()
113 ts_array[it+1] = g1*x_array[it+1][1] + g0 + g2*x_array[it+1][2]; in noise_model()
114 ts_array[it+2] = g1*x_array[it+2][1] + g0 + g2*x_array[it+2][2]; in noise_model()
115 ts_array[it+3] = g1*x_array[it+3][1] + g0 + g2*x_array[it+3][2]; in noise_model()
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| H A D | model_linear.c | 28 float ** x_array, /* independent variable matrix */
95 float ** x_array, /* independent variable matrix */ in noise_model() argument
109 case 3: ts_array[2] = g1*x_array[2][1] + g0 ; /* fall thru */ in noise_model()
110 case 2: ts_array[1] = g1*x_array[1][1] + g0 ; /* fall thru */ in noise_model()
111 case 1: ts_array[0] = g1*x_array[0][1] + g0 ; break ; in noise_model()
114 ts_array[it ] = g1*x_array[it ][1] + g0 ; in noise_model()
115 ts_array[it+1] = g1*x_array[it+1][1] + g0 ; in noise_model()
116 ts_array[it+2] = g1*x_array[it+2][1] + g0 ; in noise_model()
117 ts_array[it+3] = g1*x_array[it+3][1] + g0 ; in noise_model()
123 t = x_array[it][1]; in noise_model()
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| H A D | model_sinewave_apf.c | 26 float ** x_array, /* independent variable matrix */
96 float ** x_array, /* independent variable matrix */ in signal_model() argument
115 t = x_array[it][1]; in signal_model()
121 case 3: ts_array[2] = g0*sinf(g2*x_array[2][1]+g1) ; /* fall thru */ in signal_model()
122 case 2: ts_array[1] = g0*sinf(g2*x_array[1][1]+g1) ; /* fall thru */ in signal_model()
123 case 1: ts_array[0] = g0*sinf(g2*x_array[0][1]+g1) ; break ; in signal_model()
126 ts_array[it ] = g0*sinf(g2*x_array[it ][1]+g1) ; in signal_model()
127 ts_array[it+1] = g0*sinf(g2*x_array[it+1][1]+g1) ; in signal_model()
128 ts_array[it+2] = g0*sinf(g2*x_array[it+2][1]+g1) ; in signal_model()
129 ts_array[it+3] = g0*sinf(g2*x_array[it+3][1]+g1) ; in signal_model()
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| H A D | NLfit.c | 282 float ** x_array, /* data matrix */ in calc_reduced_model() argument
300 array_to_matrix (n, r, x_array, &x); in calc_reduced_model()
485 OLD_x0 = x_array[0][1] ; in RAN_setup()
486 OLD_x1 = x_array[1][1] ; in RAN_setup()
566 smodel (gs, ts_length, x_array, y_array); in full_model()
580 nmodel (gn, ts_length, x_array, yhat_array); in full_model()
750 ts_length, x_array, nrand ) ; in random_search()
1015 ts_length, x_array, ts1_array); in calc_partial_derivatives()
1203 *tmax = x_array[0][1]; in analyze_results()
1220 *tmax = x_array[it][1]; in analyze_results()
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| H A D | plug_nlfit.c | 306 if (*x_array == NULL) in initialize_program()
311 if ((*x_array)[it] == NULL) in initialize_program()
327 (*x_array)[it][0] = 1.0; in initialize_program()
328 (*x_array)[it][1] = it * DELT; in initialize_program()
343 (*x_array)[it][0] = 1.0; in initialize_program()
344 (*x_array)[it][1] = tar[it] ; in initialize_program()
439 if ((*x_array)[it] != NULL) in terminate_program()
440 { free ((*x_array)[it]); (*x_array)[it] = NULL; } in terminate_program()
441 if (*x_array != NULL) { free (*x_array); *x_array = NULL; } in terminate_program()
530 ts_length, x_array, fit); in nlfit()
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| H A D | NLfit.h | 115 float ** x_array, /* data matrix */
167 float ** x_array, /* independent variable matrix */
192 float ** x_array, /* independent variable matrix */
214 float ** x_array, /* independent variable matrix */
240 float ** x_array, /* independent variable matrix */
271 float ** x_array, /* independent variable matrix */
291 float ** x_array, /* independent variable matrix */
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| /dports/math/gsl/gsl-2.7/interpolation/ |
| H A D | linear.c | 29 const double x_array[], in linear_init() argument
51 index = gsl_interp_accel_find (a, x_array, size, x); in linear_eval()
55 index = gsl_interp_bsearch (x_array, x, 0, size - 1); in linear_eval()
59 x_lo = x_array[index]; in linear_eval()
60 x_hi = x_array[index + 1]; in linear_eval()
93 index = gsl_interp_accel_find (a, x_array, size, x); in linear_eval_deriv()
97 index = gsl_interp_bsearch (x_array, x, 0, size - 1); in linear_eval_deriv()
101 x_lo = x_array[index]; in linear_eval_deriv()
102 x_hi = x_array[index + 1]; in linear_eval_deriv()
161 const double x_hi = x_array[i + 1]; in linear_eval_integ()
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| H A D | steffen.c | 111 steffen_init (void * vstate, const double x_array[], in steffen_init() argument
127 double h0 = (x_array[1] - x_array[0]); in steffen_init()
139 double hi = (x_array[i+1] - x_array[i]); in steffen_init()
140 double him1 = (x_array[i] - x_array[i - 1]); in steffen_init()
163 (x_array[size - 1] - x_array[size - 2]); in steffen_init()
168 double hi = (x_array[i+1] - x_array[i]); in steffen_init()
226 const double x_lo = x_array[index]; in steffen_eval()
262 double x_lo = x_array[index]; in steffen_eval_deriv()
296 const double x_lo = x_array[index]; in steffen_eval_deriv2()
337 const double x_hi = x_array[i + 1]; in steffen_eval_integ()
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| H A D | akima.c | 108 const double h_i = x_array[i + 1] - x_array[i]; in akima_calc()
142 m[i] = (y_array[i + 1] - y_array[i]) / (x_array[i + 1] - x_array[i]); in akima_init()
159 const double x_array[], in akima_init_periodic() argument
171 m[i] = (y_array[i + 1] - y_array[i]) / (x_array[i + 1] - x_array[i]); in akima_init_periodic()
212 index = gsl_interp_accel_find (a, x_array, size, x); in akima_eval()
221 const double x_lo = x_array[index]; in akima_eval()
247 index = gsl_interp_accel_find (a, x_array, size, x); in akima_eval_deriv()
256 double x_lo = x_array[index]; in akima_eval_deriv()
292 const double x_lo = x_array[index]; in akima_eval_deriv2()
330 const double x_hi = x_array[i + 1]; in akima_eval_integ()
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| H A D | cspline.c | 266 index = gsl_interp_accel_find (a, x_array, size, x); in cspline_eval()
274 x_hi = x_array[index + 1]; in cspline_eval()
275 x_lo = x_array[index]; in cspline_eval()
312 index = gsl_interp_accel_find (a, x_array, size, x); in cspline_eval_deriv()
320 x_hi = x_array[index + 1]; in cspline_eval_deriv()
321 x_lo = x_array[index]; in cspline_eval_deriv()
358 index = gsl_interp_accel_find (a, x_array, size, x); in cspline_eval_deriv2()
366 x_hi = x_array[index + 1]; in cspline_eval_deriv2()
367 x_lo = x_array[index]; in cspline_eval_deriv2()
415 const double x_hi = x_array[i + 1]; in cspline_eval_integ()
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| /dports/science/hypre/hypre-2.23.0/src/struct_ls/ |
| H A D | sparse_msg_solve.c | 49 hypre_StructVector **x_array = (smsg_data -> x_array); in hypre_SparseMSGSolve() local
91 hypre_StructVectorDestroy(x_array[0]); in hypre_SparseMSGSolve()
94 x_array[0] = hypre_StructVectorRef(x); in hypre_SparseMSGSolve()
233 x_array[fi]); in hypre_SparseMSGSolve()
312 hypre_StructVectorPrint(filename, x_array[fi], 0); in hypre_SparseMSGSolve()
333 x_array[fi]); in hypre_SparseMSGSolve()
339 hypre_StructVectorPrint(filename, x_array[fi], 0); in hypre_SparseMSGSolve()
377 Px_array[lx], x_array[ci], in hypre_SparseMSGSolve()
414 hypre_StructVectorPrint(filename, x_array[fi], 0); in hypre_SparseMSGSolve()
424 x_array[fi]); in hypre_SparseMSGSolve()
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| /dports/misc/py-fast-histogram/fast-histogram-0.10/fast_histogram/ |
| H A D | _histogram_core.c | 88 if (x_array == NULL) { in _histogram1d()
90 Py_XDECREF(x_array); in _histogram1d()
102 Py_DECREF(x_array); in _histogram1d()
112 Py_DECREF(x_array); in _histogram1d()
122 Py_DECREF(x_array); in _histogram1d()
136 Py_DECREF(x_array); in _histogram1d()
186 Py_DECREF(x_array); in _histogram1d()
258 arrays[0] = x_array; in _histogram2d()
338 Py_DECREF(x_array); in _histogram2d()
804 Py_DECREF(x_array); in _histogram1d_weighted()
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| /dports/multimedia/opentoonz/opentoonz-1.5.0/toonz/sources/stdfx/ |
| H A D | igs_motion_blur.cpp | 49 std::vector<int>&x_array,
91 dda_array_( dx, dy, x_array );
92 for (int ii=1;ii<=dy;++ii) {x_array.at(ii)+=x_array.at(ii-1);}
98 for (int ii=1;ii<=count;++ii){x_array.at(ii)=-x_array.at(ii);}
135 std::vector<int>&x_array,
148 x_array.resize(size);
407 x_array.resize(size); in set_smooth_()
418 x_array.at(ii) = xx; in set_smooth_()
606 std::vector<int> x_array; in convert() local
620 x_array.clear(); in convert()
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| /dports/science/PETSc/petsc-3.14.1/src/mat/tests/ |
| H A D | ex142.c | 25 PetscScalar *x_array,*y_array,*z_array; in main() local
70 ierr = VecGetArray(x,&x_array);CHKERRQ(ierr); in main()
81 fplan = fftw_plan_dft_r2c_1d(dim[0], (double*)x_array, (fftw_complex*)y_array, flags); in main()
85 fplan = fftw_plan_dft_r2c_2d(dim[0],dim[1],(double*)x_array, (fftw_complex*)y_array,flags); in main()
93 fplan = fftw_plan_dft_r2c(DIM,(int*)dim,(double*)x_array, (fftw_complex*)y_array,flags); in main()
98 ierr = VecRestoreArray(x,&x_array);CHKERRQ(ierr); in main()
111 ierr = VecGetArray(x, &x_array);CHKERRQ(ierr); in main()
113 x_array[i] = tanh((i - N/2.0)*(10.0/N)); in main()
115 ierr = VecRestoreArray(x, &x_array);CHKERRQ(ierr); in main()
123 ierr = VecGetArray(x,&x_array);CHKERRQ(ierr); in main()
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| /dports/science/dakota/dakota-6.13.0-release-public.src-UI/src/ |
| H A D | SurfpackApproximation.cpp | 534 vars_to_realarray(vars, x_array); in value()
535 return (*model)(x_array); in value()
545 vars_to_realarray(vars, x_array); in gradient()
571 vars_to_realarray(vars, x_array); in hessian()
592 vars_to_realarray(vars, x_array); in prediction_variance()
593 return model->variance(x_array); in prediction_variance()
611 RealArray x_array; in value() local
614 return (*model)(x_array); in value()
622 RealArray x_array; in gradient() local
649 RealArray x_array; in hessian() local
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| /dports/databases/grass7/grass-7.8.6/lib/gpde/ |
| H A D | n_gradient.c | 124 WC = N_get_array_2d_d_value(field->x_array, col, row); in N_get_gradient_2d()
125 EC = N_get_array_2d_d_value(field->x_array, col + 1, row); in N_get_gradient_2d()
717 WC = N_get_array_2d_d_value(field->x_array, col, row); in N_get_gradient_neighbours_2d()
947 N_free_array_2d(field->x_array); in N_free_gradient_field_2d()
974 N_copy_array_2d(source->x_array, target->x_array); in N_copy_gradient_field_2d()
991 fprintf(stdout, "X array pointer: %p\n", field->x_array); in N_print_gradient_field_2d_info()
999 N_print_array_2d_info(field->x_array); in N_print_gradient_field_2d_info()
1048 N_free_array_3d(field->x_array); in N_free_gradient_field_3d()
1077 N_copy_array_3d(source->x_array, target->x_array); in N_copy_gradient_field_3d()
1097 fprintf(stdout, "X array pointer: %p\n", field->x_array); in N_print_gradient_field_3d_info()
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| /dports/math/moab/fathomteam-moab-7bde9dfb84a8/src/ |
| H A D | VertexSequence.hpp | 84 inline double* x_array() { return array(X); } in x_array() function in moab::VertexSequence
88 inline const double* x_array() const { return array(X); } in x_array() function in moab::VertexSequence
104 x = x_array()[offset]; in get_coordinates()
114 coords[X] = x_array()[offset]; in get_coordinates()
127 x = x_array()+offset; in get_coordinates_ref()
139 x_array()[offset] = x; in set_coordinates()
149 x_array()[offset] = xyz[0]; in set_coordinates()
160 x = x_array()+offset; in get_coordinate_arrays()
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| /dports/graphics/pecl-vips/vips-1.0.10/tests/ |
| H A D | 010.phpt | 12 ["x" => true, "y" => true, "x_array" => true]);
13 $x_array = $result["x_array"];
15 if ($x_array == [10]) {
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| H A D | 017.phpt | 11 ["x" => true, "y" => true, "x_array" => true]);
12 $x_array = $result["x_array"];
14 if ($x_array == [10]) {
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| /dports/math/p5-Math-GSL/Math-GSL-0.43/t/ |
| H A D | Interp.t | 27 my $x_array = [ 0.0, 1.0, 2.0, 3.0, 4.0 ];
30 my $index_result = gsl_interp_bsearch($x_array, 1.5, 0, 4);
34 $index_result = gsl_interp_bsearch($x_array, 4.0, 0, 4);
38 $index_result = gsl_interp_bsearch($x_array, 0.0, 0, 4);
42 $index_result = gsl_interp_bsearch($x_array, 2.0, 0, 4);
46 $index_result = gsl_interp_bsearch($x_array, 10.0, 0, 4);
50 $index_result = gsl_interp_bsearch($x_array, -10.0, 0, 4);
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| /dports/science/PETSc/petsc-3.14.1/src/mat/impls/fft/fftw/ |
| H A D | fftw.c | 47 const PetscScalar *x_array; in MatMult_SeqFFTW() local
60 ierr = VecGetArrayRead(x,&x_array);CHKERRQ(ierr); in MatMult_SeqFFTW()
115 fftw->finarray = (PetscScalar *) x_array; in MatMult_SeqFFTW()
150 const PetscScalar *x_array; in MatMultTranspose_SeqFFTW() local
162 ierr = VecGetArrayRead(x,&x_array);CHKERRQ(ierr); in MatMultTranspose_SeqFFTW()
199 fftw->binarray = (PetscScalar *) x_array; in MatMultTranspose_SeqFFTW()
231 const PetscScalar *x_array; in MatMult_MPIFFTW() local
238 ierr = VecGetArrayRead(x,&x_array);CHKERRQ(ierr); in MatMult_MPIFFTW()
271 fftw->finarray = (PetscScalar *) x_array; in MatMult_MPIFFTW()
301 const PetscScalar *x_array; in MatMultTranspose_MPIFFTW() local
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| /dports/science/PETSc/petsc-3.14.1/src/mat/impls/cufft/ |
| H A D | cufft.cu | 26 PetscScalar *x_array, *y_array; in MatMult_SeqCUFFT() local
31 ierr = VecGetArray(x, &x_array);CHKERRQ(ierr); in MatMult_SeqCUFFT()
51 cudaMemcpy(devArray, x_array, sizeof(cufftComplex)*dim[ndim], cudaMemcpyHostToDevice); in MatMult_SeqCUFFT()
57 ierr = VecRestoreArray(x, &x_array);CHKERRQ(ierr); in MatMult_SeqCUFFT()
66 PetscScalar *x_array, *y_array; in MatMultTranspose_SeqCUFFT() local
71 ierr = VecGetArray(x, &x_array);CHKERRQ(ierr); in MatMultTranspose_SeqCUFFT()
90 cudaMemcpy(devArray, x_array, sizeof(cufftComplex)*dim[ndim], cudaMemcpyHostToDevice); in MatMultTranspose_SeqCUFFT()
96 ierr = VecRestoreArray(x, &x_array);CHKERRQ(ierr); in MatMultTranspose_SeqCUFFT()
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| /dports/astro/py-metpy/MetPy-1.1.0/src/metpy/interpolate/ |
| H A D | one_dimension.py | 121 x_array = x[sort_x]
124 x_array = x_array[tuple(expand)]
146 if np.any(x_array < xp[below]):
157 var_interp = var[below] + (var[above] - var[below]) * ((x_array - xp[below])
162 var_interp[x_array < xp[below]] = fill_value
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| /dports/devel/upp/upp/bazaar/plugin/gdal/alg/ |
| H A D | gvgcpfit.h | 58 int fit_order, int no_samples, double *f_array, double *x_array );
63 int fit_order, int no_samples, double *f_array, double *x_array,
70 double *x_array, double *y_array );
82 int fit_order, int no_samples, double *f_array, double *x_array,
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| /dports/graphics/py-gdal/gdal-3.3.3/alg/ |
| H A D | gvgcpfit.h | 53 int fit_order, int no_samples, double *f_array, double *x_array );
58 int fit_order, int no_samples, double *f_array, double *x_array,
65 double *x_array, double *y_array );
77 int fit_order, int no_samples, double *f_array, double *x_array,
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