some bugfixes
This commit is contained in:
parent
91cd4c24c3
commit
edf6b032c7
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@ -4,80 +4,48 @@
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double linear_spline_eval_double(
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double x
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, interpol_splines_linear_InterPolator * interpolator)
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, interpol_splines_linear_Interpolator * self)
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{
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unsigned long int i = 0;
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double * X = PyArray_DATA(interpolator->x);
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double * Y = PyArray_DATA(interpolator->y);
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double * X = PyArray_DATA(self->x);
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double * Y = PyArray_DATA(self->y);
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// Outside the known data.
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if(x < X[0])
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{
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return 0;
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}
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// Somehow this has to be handled explicitly.
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if(x == X[0])
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{
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i = 1;
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}
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else
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{
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while(x < X[i] && i < interpolator->grid_points)
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{
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i++;
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}
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}
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return Y[i - 1] + (x - X[i - 1]) / (X[i] - X[i - 1]) * (Y[i] - Y[i - 1]);
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}
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float linear_spline_eval_float(
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float x
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, interpol_splines_linear_InterPolator * interpolator)
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{
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unsigned long int i = 0;
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float * X = PyArray_DATA(interpolator->x);
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float * Y = PyArray_DATA(interpolator->y);
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// Outside the known data.
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if(x < X[0])
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if(x > X[self->grid_points - 1])
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{
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return 0;
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}
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// Somehow this has to be handled explicitly.
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if(x == X[0])
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i = 0;
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while(i < self->grid_points - 1)
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{
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i = 1;
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if((X[i] <= x) && (x <= X[i + 1]))
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{
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break;
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}
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else
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{
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while(x < X[i] && i < interpolator->grid_points)
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{
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i++;
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}
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}
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return Y[i - 1] + (x - X[i - 1]) / (X[i] - X[i - 1]) * (Y[i] - Y[i - 1]);
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}
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static PyObject *
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interpol_splines_linear_InterPolator_new
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interpol_splines_linear_Interpolator_new
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( PyTypeObject * type
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, PyObject * args
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, PyObject * kwds)
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{
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interpol_splines_linear_InterPolator * self = (interpol_splines_linear_InterPolator *) type->tp_alloc(type, 0);
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interpol_splines_linear_Interpolator * self = (interpol_splines_linear_Interpolator *) type->tp_alloc(type, 0);
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return (PyObject *) self;
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}
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static int
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interpol_splines_linear_InterPolator_init
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( interpol_splines_linear_InterPolator * self
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interpol_splines_linear_Interpolator_init
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( interpol_splines_linear_Interpolator * self
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, PyObject * args)
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{
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if(!PyArg_ParseTuple(args, "O!O!"
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@ -104,17 +72,15 @@ interpol_splines_linear_InterPolator_init
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PyErr_SetString(PyExc_TypeError, "x and y have to have the same data type");
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return -1;
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}
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if(PyArray_TYPE(self->x) == NPY_FLOAT)
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if(PyArray_TYPE(self->x) == NPY_DOUBLE)
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{
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self->eval = linear_spline_eval_double;
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}
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else if(PyArray_TYPE(self->x) == NPY_DOUBLE)
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{
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self->eval = linear_spline_eval_float;
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}
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else
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{
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PyErr_SetString(PyExc_TypeError, "x and y have to be either float or double");
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PyErr_SetString(PyExc_TypeError, "x and y have to be double");
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return -1;
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}
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@ -142,8 +108,8 @@ interpol_splines_linear_InterPolator_init
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}
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static PyObject *
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interpol_splines_linear_InterPolator_eval_pyfloat
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( interpol_splines_linear_InterPolator * self
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interpol_splines_linear_Interpolator_eval_pyfloat
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( interpol_splines_linear_Interpolator * self
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, PyObject * args
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)
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{
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@ -156,110 +122,14 @@ interpol_splines_linear_InterPolator_eval_pyfloat
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result = (double) (self->eval)(x, self);
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return Py_BuildValue("d", result);
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}
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PyDoc_STRVAR(interpol_splines_linear_InterPolator_eval_pyfloat_doc
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PyDoc_STRVAR(interpol_splines_linear_Interpolator_eval_pyfloat_doc
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, "evaluate the spline at the given point");
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/*
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static PyObject *
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interpol_splines_linear_InterPolator_eval_ndarray
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( interpol_splines_linear_InterPolator * self
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, PyObject * args
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)
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{
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PyArray * x;
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PyArray * y;
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if(!PyArg_ParseTuple(args, "O!O!", &PyArray_Type, &x, &PyArray_Type, &y))
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{
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return NULL;
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}
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if(PyArray_FLAGS(x) & NPY_CARRAY_RO != NPY_CARRAY_RO)
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{
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PyErr_SetString(PyExc_ValueError, "x must be a readable c array");
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return NULL;
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}
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if(PyArray_FLAGS(y) & NPY_CARRAY_RW != NPY_CARRAY_RW)
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{
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PyErr_SetString(PyExc_ValueError, "y must be a readable and writable c array");
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return NULL;
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}
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if(PyArray_TYPE(x) != NPY_FLOAT
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&& PyArray_TYPE(x) != NPY_DOUBLE)
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{
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PyErr_SetString(PyExc_TypeError, "x must be either float or double");
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return NULL;
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}
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if(PyArray_TYPE(x) != PyArray_TYPE(y))
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{
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PyErr_SetString(PyExc_TypeError, "x and y must have same datatype");
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return NULL;
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}
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if(PyArray_Size(x) != PyArray_Size(y))
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{
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PyErr_SetString(PyExc_ValueError, "x and y must have same length");
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}
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npy_intp size = PyArray_NBYTES(x);
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npy_intp element_size = PyArray_ITEMSIZE(x);
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char * x_data = PyArray_BYTES(x);
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char * y_data = PyArray_BYTES(y);
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// FIXME:
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// I have to pay attention to datatypes here.
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while(x_data < size)
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{
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*y_data = self->eval(*x, self);
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}
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}
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*/
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int
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interpol_splines_linear_InterPolator_equals_pyfloat_search_float
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( interpol_splines_linear_InterPolator * self
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, i_deque_t ** deque
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, double y)
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{
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float * x_data = (float *) PyArray_DATA(self->x),
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* y_data = (float *) PyArray_DATA(self->y);
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PyObject * this_result;
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long unsigned int i;
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for(i = 1; i < self->grid_points; i++)
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{
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if(y_data[i - 1] <= y && y_data[i] >= y)
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{
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// just avoid zero division
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if(y_data[i - 1] == y_data[i])
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{
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this_result = PyFloat_FromDouble(x_data[i - 1]);
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if(!this_result)
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{
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return -1;
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}
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*deque = i_deque_t_insert(*deque, this_result);
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continue;
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}
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this_result = PyFloat_FromDouble(
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(y - y_data[i - 1]) / (y_data[i] - y_data[i - 1]) * (x_data[i] - x_data[i - 1]) + x_data[i - 1]);
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if(!this_result)
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{
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return -1;
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}
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*deque = i_deque_t_insert(*deque, this_result);
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}
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}
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return 0;
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}
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int
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interpol_splines_linear_InterPolator_equals_pyfloat_search_double
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( interpol_splines_linear_InterPolator * self
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interpol_splines_linear_Interpolator_equals_pyfloat_search_double
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( interpol_splines_linear_Interpolator * self
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, i_deque_t ** deque
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, double y)
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{
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@ -270,7 +140,8 @@ interpol_splines_linear_InterPolator_equals_pyfloat_search_double
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long unsigned int i;
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for(i = 1; i < self->grid_points; i++)
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{
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if(y_data[i - 1] <= y && y_data[i] >= y)
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if(((y_data[i - 1]) <= y && (y <= y_data[i]))
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|| ((y_data[i - 1] >= y) && (y >= y_data[i])))
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{
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// just avoid zero division
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if(y_data[i - 1] == y_data[i])
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@ -296,8 +167,8 @@ interpol_splines_linear_InterPolator_equals_pyfloat_search_double
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return 0;
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}
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static PyObject *
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interpol_splines_linear_InterPolator_equals_pyfloat
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( interpol_splines_linear_InterPolator * self
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interpol_splines_linear_Interpolator_equals_pyfloat
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( interpol_splines_linear_Interpolator * self
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, PyObject * args)
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{
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double y;
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}
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i_deque_t * deque = i_deque_t_start();
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if(PyArray_TYPE(self->y) == NPY_FLOAT)
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{
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interpol_splines_linear_InterPolator_equals_pyfloat_search_float(self, &deque, y);
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}
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else
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{
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interpol_splines_linear_InterPolator_equals_pyfloat_search_double(self, &deque, y);
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}
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interpol_splines_linear_Interpolator_equals_pyfloat_search_double(self, &deque, y);
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return i_deque_t_to_List(deque);
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}
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PyDoc_STRVAR(interpol_splines_linear_InterPolator_equals_pyfloat_doc
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PyDoc_STRVAR(interpol_splines_linear_Interpolator_equals_pyfloat_doc
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, "return a deque to all the points where s(x) = y");
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static PyMethodDef interpol_splines_linear_InterPolator_Methods[] =
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static PyMethodDef interpol_splines_linear_Interpolator_Methods[] =
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{
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{"eval_float", (PyCFunction) interpol_splines_linear_InterPolator_eval_pyfloat, METH_O, interpol_splines_linear_InterPolator_eval_pyfloat_doc}
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, {"equals_float", (PyCFunction) interpol_splines_linear_InterPolator_equals_pyfloat, METH_O, interpol_splines_linear_InterPolator_equals_pyfloat_doc}
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{"eval_float", (PyCFunction) interpol_splines_linear_Interpolator_eval_pyfloat, METH_VARARGS, interpol_splines_linear_Interpolator_eval_pyfloat_doc}
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, {"equals_float", (PyCFunction) interpol_splines_linear_Interpolator_equals_pyfloat, METH_VARARGS, interpol_splines_linear_Interpolator_equals_pyfloat_doc}
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, {NULL, NULL, 0, NULL}
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};
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static PyTypeObject interpol_splines_linear_InterPolatorType =
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static PyTypeObject interpol_splines_linear_InterpolatorType =
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{
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PyVarObject_HEAD_INIT(NULL, 0)
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"interpol.splines.linear.do.Interpolator",
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sizeof(interpol_splines_linear_InterPolator),
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sizeof(interpol_splines_linear_Interpolator),
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0, /* tp_itemsize */
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0, /* tp_dealloc */
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0, /* tp_print */
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@ -357,7 +221,7 @@ static PyTypeObject interpol_splines_linear_InterPolatorType =
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0,
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0,
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0,
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interpol_splines_linear_InterPolator_Methods, // methods
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interpol_splines_linear_Interpolator_Methods, // methods
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0, // members
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0,
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0,
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@ -365,9 +229,9 @@ static PyTypeObject interpol_splines_linear_InterPolatorType =
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0,
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0,
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0,
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(initproc) interpol_splines_linear_InterPolator_init,
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(initproc) interpol_splines_linear_Interpolator_init,
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0,
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interpol_splines_linear_InterPolator_new,
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interpol_splines_linear_Interpolator_new,
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};
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static PyModuleDef interpol_splines_linear_do_module =
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@ -382,7 +246,7 @@ static PyModuleDef interpol_splines_linear_do_module =
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PyMODINIT_FUNC PyInit_do(void)
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{
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PyObject * module;
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if(PyType_Ready(&interpol_splines_linear_InterPolatorType) < 0)
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if(PyType_Ready(&interpol_splines_linear_InterpolatorType) < 0)
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{
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return NULL;
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}
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@ -391,8 +255,8 @@ PyMODINIT_FUNC PyInit_do(void)
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{
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return NULL;
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}
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Py_INCREF(&interpol_splines_linear_InterPolatorType);
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PyModule_AddObject(module, "InterPolator", (PyObject *) &interpol_splines_linear_InterPolatorType);
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Py_INCREF(&interpol_splines_linear_InterpolatorType);
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PyModule_AddObject(module, "Interpolator", (PyObject *) &interpol_splines_linear_InterpolatorType);
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import_array();
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return module;
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@ -4,7 +4,7 @@
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#include <Python.h>
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#include <numpy/arrayobject.h>
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typedef struct _interpol_splines_linear_InterPolator_s
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typedef struct _interpol_splines_linear_Interpolator_s
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{
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PyObject_HEAD
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long unsigned int grid_points;
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// This is either
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// linear_spline_eval_double or linear_spline_eval_float and
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// is used to evaluate the spline at a given x efficiently.
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double (* eval)(double, struct _interpol_splines_linear_InterPolator_s *);
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} interpol_splines_linear_InterPolator;
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double (* eval)(double, struct _interpol_splines_linear_Interpolator_s *);
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} interpol_splines_linear_Interpolator;
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double linear_spline_eval_double
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( double x
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, interpol_splines_linear_InterPolator * interpolator
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, interpol_splines_linear_Interpolator * interpolator
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);
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float linear_spline_eval_float
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( float x
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, interpol_splines_linear_InterPolator * interpolator
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, interpol_splines_linear_Interpolator * interpolator
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);
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#ifndef interpol_splines_linear_c
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22
test.py
22
test.py
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@ -1,13 +1,17 @@
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import interpol.spline.linear.do as do
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# coding: utf-8
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from interpol.spline.linear.do import Interpolator
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import numpy as np
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import matplotlib.pyplot as plt
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X = np.arange(0, 30, 0.3)
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Y = np.cos(X)
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i = Interpolator(X, Y)
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X_bar = np.arange(0, 30, 0.01)
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Y_bar = np.cos(X_bar)
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interpolated = np.array([i.eval_float((f,)) for f in X_bar])
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x = np.arange(0, 4, 0.3)
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y = np.cos(x)
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ip = do.InterPolator(x, y)
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x_bar = np.arange(0, 4, 0.01)
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plt.plot(x_bar, np.cos(x_bar))
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plt.plot(x_bar, [ip.eval_float((i,)) for i in x_bar])
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results_half = i.equals_float((0.5,))
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y_half = [0.5 for x in results_half]
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plt.plot(X_bar, interpolated, "r-")
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plt.plot(X_bar, Y_bar, "g-")
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plt.plot(results_half, y_half, "bo")
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plt.show()
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