2019-07-08 09:21:51 +00:00
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#include "interaction.h"
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#include "math.h"
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#define raise2(x) (x)*(x)
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static float
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interaction_force_function
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( float r
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, float * coefficients)
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{
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float result = 0;
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int i;
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for(i = 0; i < 7; i++)
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{
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result += coefficients[i] * powf(r, i);
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}
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result *= coefficients[7] * expf(coefficients[8] * (r - coefficients[9]));
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result += coefficients[10] * expf(coefficients[11] * (r - coefficients[12]));
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result += coefficients[13] * expf(coefficients[14] * raise2(r - coefficients[15]));
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result += coefficients[16] * expf(coefficients[17] * raise2(r - coefficients[18]));
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return result;
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}
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static void
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interaction_ufunc_force
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( char ** args
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, npy_intp * dimensions
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, npy_intp * steps
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, void * data)
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{
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char * in = args[0]
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2019-07-12 08:48:49 +00:00
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, * out = args[1];
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2019-07-08 09:21:51 +00:00
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npy_intp n = dimensions[0];
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npy_intp in_step = steps[0]
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2019-07-12 08:48:49 +00:00
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, out_step = steps[1];
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2019-07-08 09:21:51 +00:00
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npy_intp i;
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2019-07-12 08:48:49 +00:00
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float * coefficients = (float *) data;
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2019-07-08 09:21:51 +00:00
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for(i = 0; i < n; i++)
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{
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*(float *)out = interaction_force_function(*(float *)in, coefficients);
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out += out_step;
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in += in_step;
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}
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}
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static void
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interaction_ufunc_float2D
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( char ** args
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, npy_intp * dimensions
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, npy_intp * steps
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, void * data)
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{
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npy_intp i;
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npy_intp j;
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npy_intp n = dimensions[0];
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char * x_old = args[0]
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, * y_old = args[1]
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, * p_x_old = args[2]
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, * p_y_old = args[3]
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2019-07-12 08:48:49 +00:00
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, * p_x_new = args[4]
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, * p_y_new = args[5];
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2019-07-08 09:21:51 +00:00
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npy_intp x_old_steps = steps[0]
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, y_old_steps = steps[1]
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, p_x_old_steps = steps[2]
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, p_y_old_steps = steps[3]
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2019-07-12 08:48:49 +00:00
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, p_x_new_steps = steps[4]
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, p_y_new_steps = steps[5];
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float *coefficients = (float *) data;
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2019-07-08 09:21:51 +00:00
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// Compute the new momenta:
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// Stuff we will need:
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float r; // Distance between interacting particles.
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float delta_x_e; // x-component of unit direction vector.
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float delty_y_e; // y-component of unit direction vector.
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float delta_p_x;
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float delta_p_y;
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// The current x_old[i], y_old[i] coordinates.
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float this_x_i;
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float this_y_i;
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// The current x_old[j], y_old[j] coordinates.
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float this_x_j;
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float this_y_j;
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for(i = 0; i < n; i++)
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{
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this_x_i = *(float *)(x_old + i*x_old_steps);
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this_y_i = *(float *)(y_old + i*y_old_steps);
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// copy current momenta
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*(float *)(p_x_new + i*p_x_new_steps) = *(float *)(p_x_old + i*p_x_old_steps);
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*(float *)(p_y_new + i*p_y_new_steps) = *(float *)(p_y_old + i*p_y_old_steps);
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// compute and add the momentum offset
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for(j = 0; j < i; j++)
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{
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this_x_j = *(float *)(x_old + j*x_old_steps);
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this_y_j = *(float *)(y_old + j*y_old_steps);
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// Compute distance and direction between particles i,j.
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r = sqrtf(raise2(this_x_i - this_x_j) + raise2(this_y_i - this_y_j));
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delta_x_e = (this_x_i - this_x_j) / r;
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delty_y_e = (this_y_i - this_y_j) / r;
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// Update the momenta.
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delta_p_x = delta_x_e * interaction_force_function(r, coefficients);
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delta_p_y = delty_y_e * interaction_force_function(r, coefficients);
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*(float *)(p_x_new + i*p_x_new_steps) -= delta_p_x;
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*(float *)(p_y_new + i*p_y_new_steps) -= delta_p_y;
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*(float *)(p_x_new + j*p_x_new_steps) += delta_p_x;
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*(float *)(p_y_new + j*p_y_new_steps) += delta_p_y;
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}
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}
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}
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2019-07-12 08:48:49 +00:00
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typedef struct
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{
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PyObject_HEAD
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float coefficients[16];
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PyObject * ufunc;
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} interaction_UFuncWrapper;
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static PyTypeObject interaction_UFuncWrapperType
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{
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PyTypeObject_HEAD_INIT(NULL, 0)
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.tp_name = "brown.interaction.UFuncWrapper",
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.tp_doc = "A wrapper that wraps the ufuncs for interaction and force, storing the coeficients",
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.tp_basicsize = sizeof(interaction_UFuncWrapper),
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.tp_itemsize = 0,
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.tp_flags = Py_TPFLAGS_DEFAULT,
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.tp_new = PyType_GenericNew,
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};
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static int
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interaction_UFuncWrapper_init
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( interaction_UFuncWrapper * self
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, PyObject * args
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, PyObject * kwds)
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{
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char type;
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PyObject * coefficients;
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if(!PyArgs_ParseTupleAndKeywords(args, kwds, "" // FIXME
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}
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static PyObject *
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interaction_UFuncWrapper_call
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(interaction_UFuncWrapper * self,
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PyObject * data)
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{
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return
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}
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2019-07-08 09:21:51 +00:00
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static PyMethodDef InteractionMethods[] = {
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{NULL, NULL, 0, NULL}
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};
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PyUFuncGenericFunction interaction_funcs[] =
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{ &interaction_ufunc_float2D};
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PyUFuncGenericFunction force_funcs[] =
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{ &interaction_ufunc_force};
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static char interaction_types[] =
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{ NPY_FLOAT, NPY_FLOAT, NPY_FLOAT, NPY_FLOAT, NPY_FLOAT, NPY_FLOAT, NPY_FLOAT};
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static char force_types[] =
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{ NPY_FLOAT, NPY_FLOAT, NPY_FLOAT};
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static void *interaction_data[] = {NULL};
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static void *force_data[] = {NULL};
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static struct PyModuleDef moduledef = {
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PyModuleDef_HEAD_INIT
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, "brown.interaction"
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, NULL
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, -1
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, InteractionMethods
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, NULL
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, NULL
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, NULL
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, NULL
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};
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PyMODINIT_FUNC
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PyInit_interaction(void)
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{
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PyObject * module
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, * ufunc_interaction
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, * ufunc_force
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, * dct;
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module = PyModule_Create(&moduledef);
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if(!module)
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{
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return NULL;
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}
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import_array();
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import_umath();
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ufunc_interaction = PyUFunc_FromFuncAndDataAndSignature(
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interaction_funcs
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, interaction_data
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, interaction_types
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, 1
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, 5
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, 2
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, PyUFunc_None
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, "interaction2D"
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, "Update the momenta according to the given coefficients and positions"
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, 0
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, "(n),(n),(n),(n),(19)->(n),(n)");
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ufunc_force = PyUFunc_FromFuncAndDataAndSignature(
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force_funcs
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, force_data
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, force_types
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, 1
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, 2
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, 1
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, PyUFunc_None
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, "force_function"
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, "computes the scalar force between two particles with given coefficients"
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, 0
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, "(n),(19)->(n)");
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dct = PyModule_GetDict(module);
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PyDict_SetItemString(dct, "interaction2D", ufunc_interaction);
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PyDict_SetItemString(dct, "force_function", ufunc_force);
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Py_DECREF(ufunc_interaction);
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Py_DECREF(ufunc_force);
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return module;
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}
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