/* * vfile.cpp - file based voltage source class implementation * * Copyright (C) 2007 Gunther Kraut * Copyright (C) 2007, 2008, 2009 Stefan Jahn * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this package; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, * Boston, MA 02110-1301, USA. * * $Id$ * */ #if HAVE_CONFIG_H # include #endif #include "component.h" #include "dataset.h" #include "poly.h" #include "spline.h" #include "interpolator.h" #include "vfile.h" using namespace qucs; // Constructor creates vfile object in memory. vfile::vfile () : circuit (2) { type = CIR_VFILE; setVSource (true); setVoltageSources (1); interpolType = dataType = 0; data = NULL; inter = NULL; } // Destructor deletes vfile object from memory. vfile::~vfile () { delete data; delete inter; } void vfile::prepare (void) { // check type of interpolator const char * itype = getPropertyString ("Interpolator"); if (!strcmp (itype, "linear")) { interpolType = INTERPOL_LINEAR; } else if (!strcmp (itype, "cubic")) { interpolType = INTERPOL_CUBIC; } else if (!strcmp (itype, "hold")) { interpolType = INTERPOL_HOLD; } // check type of repetition const char * rtype = getPropertyString ("Repeat"); if (!strcmp (rtype, "no")) { // rectangular data dataType = REPEAT_NO; } else if (!strcmp (rtype, "yes")) { // polar data dataType = REPEAT_YES; } // load file with samples const char * file = getPropertyString ("File"); if (data == NULL) { if (strlen (file) > 4 && !strcasecmp (&file[strlen (file) - 4], ".dat")) data = dataset::load (file); else data = dataset::load_csv (file); if (data != NULL) { // check number of variables / dependencies defined by that file if (data->countVariables () != 1 || data->countDependencies () != 1) { logprint (LOG_ERROR, "ERROR: file `%s' must have time as an " "independent and the voltage source samples as dependents\n", file); return; } qucs::vector * vs = data->getVariables(); // voltage qucs::vector * ts = data->getDependencies(); // time inter = new interpolator (); inter->rvectors (vs, ts); inter->prepare (interpolType, dataType); } } } void vfile::initSP (void) { allocMatrixS (); setS (NODE_1, NODE_1, 0.0); setS (NODE_1, NODE_2, 1.0); setS (NODE_2, NODE_1, 1.0); setS (NODE_2, NODE_2, 0.0); } void vfile::initDC (void) { allocMatrixMNA (); voltageSource (VSRC_1, NODE_1, NODE_2); prepare (); setE (VSRC_1, 0); } void vfile::initAC (void) { initDC (); setE (VSRC_1, 0); } void vfile::initTR (void) { initDC (); } void vfile::calcTR (nr_double_t t) { nr_double_t G = getPropertyDouble ("G"); nr_double_t T = getPropertyDouble ("T"); nr_double_t u = inter->rinterpolate (t - T); setE (VSRC_1, G * u); } // properties PROP_REQ [] = { { "File", PROP_STR, { PROP_NO_VAL, "vfile.dat" }, PROP_NO_RANGE }, PROP_NO_PROP }; PROP_OPT [] = { { "Interpolator", PROP_STR, { PROP_NO_VAL, "linear" }, PROP_RNG_STR3 ("hold", "linear", "cubic") }, { "Repeat", PROP_STR, { PROP_NO_VAL, "no" }, PROP_RNG_YESNO }, { "G", PROP_REAL, { 1, PROP_NO_STR }, PROP_NO_RANGE }, { "T", PROP_REAL, { 0, PROP_NO_STR }, PROP_POS_RANGE }, PROP_NO_PROP }; struct define_t vfile::cirdef = { "Vfile", 2, PROP_COMPONENT, PROP_NO_SUBSTRATE, PROP_LINEAR, PROP_DEF };