/********** Copyright 1990 Regents of the University of California. All rights reserved. Author: 1985 Wayne A. Christopher, U. C. Berkeley CAD Group **********/ /* * The user-supplied routine to deal with variables. Most variables we * don't use often, so just call cp_getvar when they are needed. Spice * variables, though, and a few commonly used ones are dealt with here. */ #include "ngspice/ngspice.h" #include "ngspice/cpdefs.h" #include "ngspice/ftedefs.h" #include "ngspice/dvec.h" #include "ngspice/fteinp.h" #include "circuits.h" #include "options.h" #include "variable.h" #include "control.h" #include "spiceif.h" static void setdb(char *str); bool ft_acctprint = FALSE, ft_noacctprint = FALSE, ft_listprint = FALSE; bool ft_nodesprint = FALSE, ft_optsprint = FALSE, ft_noinitprint = FALSE; bool ft_ngdebug = FALSE, ft_stricterror = FALSE; /* The user-supplied routine to query the values of variables. This * recognises the $&varname notation, and also searches the values of * plot and circuit environment variables. */ struct variable * cp_enqvar(char *word) { struct dvec *d; struct variable *vv, *tv; struct plot *pl; int i; if (*word == '&') { word++; d = vec_get(word); if (!d) return (NULL); if (d->v_length == 1) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = copy(word); vv->va_type = CP_REAL; if (isreal(d)) vv->va_real = d->v_realdata[0]; else vv->va_real = realpart(d->v_compdata[0]); } else { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = copy(word); vv->va_type = CP_LIST; vv->va_vlist = NULL; for (i = d->v_length - 1; i >= 0; i--) { tv = alloc(struct variable); tv->va_type = CP_REAL; if (isreal(d)) tv->va_real = d->v_realdata[i]; else tv->va_real = realpart(d->v_compdata[i]); tv->va_next = vv->va_vlist; vv->va_vlist = tv; } } if (d->v_link2) fprintf(cp_err, "Warning: only one vector may be accessed with the $& notation.\n"); return (vv); } if (plot_cur) { for (vv = plot_cur->pl_env; vv; vv = vv->va_next) if (eq(vv->va_name, word)) return (vv); if (eq(word, "curplotname")) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = word; vv->va_type = CP_STRING; vv->va_string = copy(plot_cur->pl_name); } else if (eq(word, "curplottitle")) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = word; vv->va_type = CP_STRING; vv->va_string = copy(plot_cur->pl_title); } else if (eq(word, "curplotdate")) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = word; vv->va_type = CP_STRING; vv->va_string = copy(plot_cur->pl_date); } else if (eq(word, "curplot")) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = word; vv->va_type = CP_STRING; vv->va_string = copy(plot_cur->pl_typename); } else if (eq(word, "plots")) { vv = alloc(struct variable); vv->va_next = NULL; vv->va_name = word; vv->va_type = CP_LIST; vv->va_vlist = NULL; for (pl = plot_list; pl; pl = pl->pl_next) { tv = alloc(struct variable); tv->va_type = CP_STRING; tv->va_string = copy(pl->pl_typename); tv->va_next = vv->va_vlist; vv->va_vlist = tv; } } if (vv) return (vv); } if (ft_curckt) for (vv = ft_curckt->ci_vars; vv; vv = vv->va_next) if (eq(vv->va_name, word)) return (vv); return (NULL); } /* Return the plot and ckt env vars, $plots, and $curplot{name,title,date,} */ void cp_usrvars(struct variable **v1, struct variable **v2) { struct variable *v, *tv; v = plot_cur ? plot_cur->pl_env : NULL; if ((tv = cp_enqvar("plots")) != NULL) { tv->va_next = v; v = tv; } if ((tv = cp_enqvar("curplot")) != NULL) { tv->va_next = v; v = tv; } if ((tv = cp_enqvar("curplottitle")) != NULL) { tv->va_next = v; v = tv; } if ((tv = cp_enqvar("curplotname")) != NULL) { tv->va_next = v; v = tv; } if ((tv = cp_enqvar("curplotdate")) != NULL) { tv->va_next = v; v = tv; } *v1 = v; *v2 = ft_curckt ? ft_curckt->ci_vars : NULL; } /* Extract the .option lines from the deck */ struct line * inp_getopts(struct line *deck) { struct line *last = NULL, *opts = NULL, *dd, *next = NULL; for (dd = deck->li_next; dd; dd = next) { next = dd->li_next; if (ciprefix(".opt", dd->li_line)) { inp_casefix(dd->li_line); if (last) last->li_next = dd->li_next; else deck->li_next = dd->li_next; dd->li_next = opts; opts = dd; } else { last = dd; } } return (opts); } /* Extract the option lines from a comfile (spinit, .spiceinit) */ struct line * inp_getoptsc(char *in_line, struct line *com_options) { struct line *next = NULL; char *line; /* option -> .options */ /* skip option */ gettok(&in_line); line = tprintf(".options %s", in_line); next = TMALLOC(struct line, 1); next->li_line = line; next->li_linenum = 0; next->li_error = NULL; next->li_actual = NULL; /* put new line in front */ if (com_options) next->li_next = com_options; return next; } /* The one variable that we consider read-only so far is plots. The ones * that are 'dontrecord' are curplottitle, curplotname, and curplotdate. * Also things already in the plot env are 'dontrecord'. */ int cp_usrset(struct variable *var, bool isset) { void *vv; struct variable *tv; int iv; double dv; bool bv; if (eq(var->va_name, "debug")) { if (var->va_type == CP_BOOL) { cp_debug = ft_simdb = ft_parsedb = ft_evdb = ft_vecdb = ft_grdb = ft_gidb = ft_controldb = isset; } else if (var->va_type == CP_LIST) { for (tv = var->va_vlist; tv; tv = tv->va_next) if (var->va_type == CP_STRING) setdb(tv->va_string); else fprintf(cp_err, "Error: bad type for debug var\n"); } else if (var->va_type == CP_STRING) { setdb(var->va_string); } else { fprintf(cp_err, "Error: bad type for debug var\n"); } #ifndef FTEDEBUG fprintf(cp_err, "Warning: %s compiled without debug messages\n", cp_program); #endif } else if (eq(var->va_name, "program")) { cp_program = var->va_string; } else if (eq(var->va_name, "rawfile")) { ft_rawfile = copy(var->va_string); } else if (eq(var->va_name, "acct")) { ft_acctprint = isset; } else if (eq(var->va_name, "noacct")) { ft_noacctprint = isset; } else if (eq(var->va_name, "ngdebug")) { ft_ngdebug = isset; } else if (eq(var->va_name, "noinit")) { ft_noinitprint = isset; } else if (eq(var->va_name, "list")) { ft_listprint = isset; } else if (eq(var->va_name, "nopage")) { ft_nopage = isset; } else if (eq(var->va_name, "nomod")) { ft_nomod = isset; } else if (eq(var->va_name, "node")) { ft_nodesprint = isset; } else if (eq(var->va_name, "opts")) { ft_optsprint = isset; } else if (eq(var->va_name, "strictnumparse")) { ft_strictnumparse = isset; } else if (eq(var->va_name, "strict_errorhandling")) { ft_stricterror = isset; } else if (eq(var->va_name, "rawfileprec")) { if ((var->va_type == CP_BOOL) && (isset == FALSE)) raw_prec = -1; else if (var->va_type == CP_REAL) raw_prec = (int)floor(var->va_real + 0.5); else if (var->va_type == CP_NUM) raw_prec = var->va_num; else fprintf(cp_err, "Bad 'rawfileprec' \"%s\"\n", var->va_name); } else if (eq(var->va_name, "numdgt")) { if ((var->va_type == CP_BOOL) && (isset == FALSE)) cp_numdgt = -1; else if (var->va_type == CP_REAL) cp_numdgt = (int)floor(var->va_real + 0.5); else if (var->va_type == CP_NUM) cp_numdgt = var->va_num; else fprintf(cp_err, "Excuse me??\n"); } else if (eq(var->va_name, "unixcom")) { cp_dounixcom = isset; if (isset) { char *s = getenv("PATH"); if (s) cp_rehash(s, TRUE); else fprintf(cp_err, "Warning: no PATH in environment.\n"); } } else if (eq(var->va_name, "units") && (var->va_type == CP_STRING)) { if (isset && ((*var->va_string == 'd') || (*var->va_string == 'D'))) cx_degrees = TRUE; else cx_degrees = FALSE; } else if (eq(var->va_name, "curplot")) { if (var->va_type == CP_STRING) plot_setcur(var->va_string); else fprintf(cp_err, "Error: plot name not a string\n"); return (US_DONTRECORD); } else if (eq(var->va_name, "curplotname")) { if (plot_cur && (var->va_type == CP_STRING)) plot_cur->pl_name = copy(var->va_string); else fprintf(cp_err, "Error: can't set plot name\n"); return (US_DONTRECORD); } else if (eq(var->va_name, "curplottitle")) { if (plot_cur && (var->va_type == CP_STRING)) plot_cur->pl_title = copy(var->va_string); else fprintf(cp_err, "Error: can't set plot title\n"); return (US_DONTRECORD); } else if (eq(var->va_name, "curplotdate")) { if (plot_cur && (var->va_type == CP_STRING)) plot_cur->pl_date = copy(var->va_string); else fprintf(cp_err, "Error: can't set plot date\n"); return (US_DONTRECORD); } else if (eq(var->va_name, "plots")) { return (US_READONLY); } if (plot_cur) for (tv = plot_cur->pl_env; tv; tv = tv->va_next) if (eq(tv->va_name, var->va_name)) return (US_READONLY); /* if (ft_curckt) for (tv = ft_curckt->ci_vars; tv; tv = tv->va_next) if (eq(tv->va_name, var->va_name)) return (US_READONLY); */ if (ft_nutmeg) return (US_OK); /* Now call the interface option routine. */ switch (var->va_type) { case CP_BOOL: bv = (var->va_bool) ? TRUE : FALSE; vv = &bv; break; case CP_STRING: vv = var->va_string; break; case CP_NUM: iv = var->va_num; vv = &iv; break; case CP_REAL: dv = var->va_real; vv = &dv; break; case CP_LIST: /* if_option can't handle lists anyway. */ vv = NULL; break; default: fprintf(cp_err, "cp_usrset: Internal Error: Bad var type %d\n", var->va_type); return (0); } if (ft_curckt) { if (if_option(ft_curckt->ci_ckt, var->va_name, var->va_type, vv)) return US_SIMVAR; } else { if (if_option(NULL, var->va_name, var->va_type, vv)) return US_NOSIMVAR; } return (US_OK); } static void setdb(char *str) { if (eq(str, "siminterface")) ft_simdb = TRUE; else if (eq(str, "cshpar")) cp_debug = TRUE; else if (eq(str, "parser")) ft_parsedb = TRUE; else if (eq(str, "eval")) ft_evdb = TRUE; else if (eq(str, "vecdb")) ft_vecdb = TRUE; else if (eq(str, "graf")) ft_grdb = TRUE; else if (eq(str, "ginterface")) ft_gidb = TRUE; else if (eq(str, "control")) ft_controldb = TRUE; else if (eq(str, "async")) ft_asyncdb = TRUE; else fprintf(cp_err, "Warning: no such debug class %s\n", str); }