static void main_simpleProd(void) { double c; /* Initialize function 'simpleProd' input arguments. */ /* Call the entry-point 'simpleProd'. */ c = simpleProd(argInit_real_T(), argInit_real_T()); }
/* * Arguments : void * Return Type : void */ static void main_Csetminmax(void) { double value[1302]; /* Initialize function 'Csetminmax' input arguments. */ /* Initialize function input argument 'value'. */ argInit_1x1302_real_T(value); /* Call the entry-point 'Csetminmax'. */ Csetminmax(value, argInit_real_T(), argInit_real_T()); }
/* * Arguments : void * Return Type : void */ static void main_ekf_update(void) { double dv0[5]; double dv1[5]; double dv2[2]; double dv3[25]; double dv4[25]; double dv5[36]; double P_k_k[25]; double x_k_k[5]; /* Initialize function 'ekf_update' input arguments. */ /* Initialize function input argument 'x_kk_kk'. */ /* Initialize function input argument 'zm_k'. */ /* Initialize function input argument 'm0'. */ /* Initialize function input argument 'P_kk_kk'. */ /* Initialize function input argument 'Q'. */ /* Initialize function input argument 'R'. */ /* Call the entry-point 'ekf_update'. */ argInit_5x1_real_T(dv0); argInit_5x1_real_T(dv1); argInit_2x1_real_T(dv2); argInit_5x5_real_T(dv3); argInit_5x5_real_T(dv4); argInit_6x6_real_T(dv5); ekf_update(dv0, dv1, dv2, dv3, dv4, dv5, argInit_real_T(), x_k_k, P_k_k); }
/* * Arguments : double result[1302] * Return Type : void */ static void argInit_1x1302_real_T(double result[1302]) { int b_j1; /* Loop over the array to initialize each element. */ for (b_j1 = 0; b_j1 < 1302; b_j1++) { /* Set the value of the array element. Change this value to the value that the application requires. */ result[b_j1] = argInit_real_T(); } }
/* * Arguments : double result[5] * Return Type : void */ static void argInit_5x1_real_T(double result[5]) { int idx0; /* Loop over the array to initialize each element. */ for (idx0 = 0; idx0 < 5; idx0++) { /* Set the value of the array element. Change this value to the value that the application requires. */ result[idx0] = argInit_real_T(); } }
/* * Arguments : double result[36] * Return Type : void */ static void argInit_6x6_real_T(double result[36]) { int idx0; int idx1; /* Loop over the array to initialize each element. */ for (idx0 = 0; idx0 < 6; idx0++) { for (idx1 = 0; idx1 < 6; idx1++) { /* Set the value of the array element. Change this value to the value that the application requires. */ result[idx0 + 6 * idx1] = argInit_real_T(); } } }
// // Arguments : void // Return Type : void // static void c_main_makeHistFutTablewithRear() { emxArray_real_T *y; emxArray_uint8_T *testm; double range; double dims; emxArray_real_T *rmat; emxInitArray_real_T(&y, 2); // Initialize function 'makeHistFutTablewithRearrange' input arguments. // Initialize function input argument 'testm'. testm = argInit_1xUnbounded_uint8_T(); range = argInit_real_T(); dims = argInit_real_T(); // Initialize function input argument 'rmat'. rmat = argInit_Unboundedx1_real_T(); // Call the entry-point 'makeHistFutTablewithRearrange'. makeHistFutTablewithRearrange(testm, range, dims, rmat, y); emxDestroyArray_real_T(y); emxDestroyArray_real_T(rmat); emxDestroyArray_uint8_T(testm); }
/* * Arguments : void * Return Type : void */ static void main_cget_latlon(void) { double plon; double plat; /* Initialize function 'cget_latlon' input arguments. */ /* Call the entry-point 'cget_latlon'. */ cget_latlon(argInit_real_T(), argInit_real_T(), argInit_real_T(), argInit_real_T(), argInit_real_T(), argInit_real_T(), &plat, &plon); }
// // Arguments : void // Return Type : emxArray_real_T * // static emxArray_real_T *argInit_Unboundedx1_real_T() { emxArray_real_T *result; static int iv1[1] = { 2 }; int idx0; // Set the size of the array. // Change this size to the value that the application requires. result = emxCreateND_real_T(1, *(int (*)[1])&iv1[0]); // Loop over the array to initialize each element. for (idx0 = 0; idx0 < result->size[0U]; idx0++) { // Set the value of the array element. // Change this value to the value that the application requires. result->data[idx0] = argInit_real_T(); } return result; }