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198 lines
6.6 KiB
198 lines
6.6 KiB
#define PY_SSIZE_T_CLEAN
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#include <Python.h>
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long* PySequenceToLongArray(PyObject* pylist) {
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if (!(pylist && PySequence_Check(pylist))) return NULL;
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Py_ssize_t len = PySequence_Size(pylist);
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long* result = (long*)calloc(len + 1, sizeof(long));
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for (Py_ssize_t i = 0; i < len; ++i) {
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PyObject* item = PySequence_GetItem(pylist, i);
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result[i] = PyLong_AsLong(item);
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Py_DECREF(item);
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}
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result[len] = 0;
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return result;
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}
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double* PySequenceToDoubleArray(PyObject* pylist) {
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if (!(pylist && PySequence_Check(pylist))) return NULL;
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Py_ssize_t len = PySequence_Size(pylist);
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double* result = (double*)calloc(len + 1, sizeof(double));
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for (Py_ssize_t i = 0; i < len; ++i) {
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PyObject* item = PySequence_GetItem(pylist, i);
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result[i] = PyFloat_AsDouble(item);
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Py_DECREF(item);
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}
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result[len] = 0;
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return result;
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}
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long* getLongArray(PyObject* container, const char* attributeName) {
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PyObject* sequence = PyObject_GetAttrString(container, attributeName);
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long* result = PySequenceToLongArray(sequence);
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Py_DECREF(sequence);
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return result;
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}
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double* getDoubleArray(PyObject* container, const char* attributeName) {
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PyObject* sequence = PyObject_GetAttrString(container, attributeName);
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double* result = PySequenceToDoubleArray(sequence);
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Py_DECREF(sequence);
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return result;
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}
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static PyObject* computeTable(PyObject* self, PyObject* args) {
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PyObject* chainParam;
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int mmax;
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if (!PyArg_ParseTuple(args, "Oi", &chainParam, &mmax)) return NULL;
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double* ftime = getDoubleArray(chainParam, "ftime");
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if (!ftime) return NULL;
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double* btime = getDoubleArray(chainParam, "btime");
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if (!btime) return NULL;
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long* x = getLongArray(chainParam, "x");
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if (!x) return NULL;
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long* xbar = getLongArray(chainParam, "xbar");
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if (!xbar) return NULL;
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long* ftmp = getLongArray(chainParam, "btmp");
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if (!ftmp) return NULL;
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long* btmp = getLongArray(chainParam, "btmp");
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if (!btmp) return NULL;
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long chainLength = PyObject_Length(chainParam);
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if (!chainLength) return NULL;
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#define COST_TABLE(m, i, l) \
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costTable[(m) * (chainLength + 1) * (chainLength + 1) + \
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(i) * (chainLength + 1) + (l)]
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double* costTable = (double*)calloc(
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(mmax + 1) * (chainLength + 1) * (chainLength + 1), sizeof(double));
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#define BACK_PTR(m, i, l) \
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backPtr[(m) * (chainLength + 1) * (chainLength + 1) + \
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(i) * (chainLength + 1) + (l)]
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long* backPtr = (long*)calloc(
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(mmax + 1) * (chainLength + 1) * (chainLength + 1), sizeof(long));
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for (long m = 0; m <= mmax; ++m)
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for (long i = 0; i <= chainLength; ++i)
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if ((m >= x[i + 1] + xbar[i + 1] + btmp[i]) &&
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(m >= x[i + 1] + xbar[i + 1] + ftmp[i]))
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COST_TABLE(m, i, i) = ftime[i] + btime[i];
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else
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COST_TABLE(m, i, i) = INFINITY;
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for (long m = 0; m <= mmax; ++m)
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for (long d = 1; d <= chainLength; ++d) {
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for (long i = 0; i <= chainLength - d; ++i) {
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long idx = i + d;
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long mmin = x[idx + 1] + x[i + 1] + ftmp[i];
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if (idx > i + 1) {
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long maxCostFWD = 0;
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for (long j = i + 1; j < idx; j++) {
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maxCostFWD = fmaxl(maxCostFWD, x[j] + x[j + 1] + ftmp[j]);
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}
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mmin = fmaxl(mmin, x[idx + 1] + maxCostFWD);
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}
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if ((m >= mmin)) {
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long bestLeaf = -1;
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double sumFw = 0;
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double bestLeafCost = INFINITY;
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for (long j = i + 1; j <= idx; ++j) {
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sumFw += ftime[j - 1];
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if (m >= x[j]) {
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double cost = sumFw + COST_TABLE(m - x[j], j, idx) +
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COST_TABLE(m, i, j - 1);
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if (cost < bestLeafCost) {
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bestLeafCost = cost;
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bestLeaf = j;
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}
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}
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}
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double chainCost = INFINITY;
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if (m >= xbar[i + 1])
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chainCost =
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COST_TABLE(m, i, i) + COST_TABLE(m - xbar[i + 1], i + 1, idx);
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if (bestLeafCost <= chainCost) {
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COST_TABLE(m, i, idx) = bestLeafCost;
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BACK_PTR(m, i, idx) = bestLeaf;
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} else {
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COST_TABLE(m, i, idx) = chainCost;
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BACK_PTR(m, i, idx) = -1;
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}
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} else
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COST_TABLE(m, i, idx) = INFINITY;
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}
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}
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free(ftime);
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free(btime);
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free(x);
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free(xbar);
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free(ftmp);
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free(btmp);
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PyObject* pyCostTable = PyList_New(mmax + 1);
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PyObject* pyBackPtr = PyList_New(mmax + 1);
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// Convert the result into Python world
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for (long m = 0; m <= mmax; ++m) {
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PyObject* pyCostTable_m = PyList_New(chainLength + 1);
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PyList_SET_ITEM(pyCostTable, m, pyCostTable_m);
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PyObject* pyBackPtr_m = PyList_New(chainLength + 1);
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PyList_SET_ITEM(pyBackPtr, m, pyBackPtr_m);
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for (long i = 0; i <= chainLength; ++i) {
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PyObject* pyCostTable_m_i = PyDict_New();
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PyList_SET_ITEM(pyCostTable_m, i, pyCostTable_m_i);
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PyObject* pyBackPtr_m_i = PyDict_New();
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PyList_SET_ITEM(pyBackPtr_m, i, pyBackPtr_m_i);
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for (long l = i; l <= chainLength; ++l) {
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PyObject* pyVar_l = PyLong_FromLong(l);
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PyObject* pyCostTable_m_i_l = PyFloat_FromDouble(COST_TABLE(m, i, l));
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PyDict_SetItem(pyCostTable_m_i, pyVar_l, pyCostTable_m_i_l);
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Py_DECREF(pyCostTable_m_i_l);
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PyObject* pyBackPtr_m_i_l;
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if (BACK_PTR(m, i, l) < 0)
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pyBackPtr_m_i_l = Py_BuildValue("(O)", Py_True);
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else
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pyBackPtr_m_i_l = Py_BuildValue("(Ol)", Py_False, BACK_PTR(m, i, l));
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PyDict_SetItem(pyBackPtr_m_i, pyVar_l, pyBackPtr_m_i_l);
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Py_DECREF(pyBackPtr_m_i_l);
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Py_DECREF(pyVar_l);
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}
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}
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}
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free(costTable);
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free(backPtr);
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PyObject* result = PyTuple_Pack(2, pyCostTable, pyBackPtr);
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Py_DECREF(pyCostTable);
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Py_DECREF(pyBackPtr);
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return result;
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}
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static PyMethodDef rotorMethods[] = {
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{"compute_table", computeTable, METH_VARARGS,
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"Compute the optimal table with the rotor algorithm."},
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{NULL, NULL, 0, NULL} /* Sentinel */
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};
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static struct PyModuleDef rotorModule = {
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PyModuleDef_HEAD_INIT, "rotorc", /* name of module */
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"A simple implementation of dynamic programming algorithm rotor with C in "
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"https://hal.inria.fr/hal-02352969. Some code are adapted from "
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"https://gitlab.inria.fr/hiepacs/rotor.", /* module documentation, may be
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NULL */
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-1, /* size of per-interpreter state of the module,
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or -1 if the module keeps state in global variables. */
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rotorMethods};
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PyMODINIT_FUNC PyInit_rotorc(void) { return PyModule_Create(&rotorModule); }
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