Beispiel #1
0
static int
dot_ac(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
       TSKtask *task, CKTnode *gnode, JOB *foo)
{
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    int which;			/* which analysis we are performing */
    char *steptype;		/* ac analysis, type of stepping function */

    NG_IGNORE(gnode);

    /* .ac {DEC OCT LIN} NP FSTART FSTOP */
    which = ft_find_analysis("AC");
    if (which == -1) {
        LITERR("AC small signal analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "AC Analysis", &foo, task));
    INPgetTok(&line, &steptype, 1);	/* get DEC, OCT, or LIN */
    ptemp.iValue = 1;
    GCA(INPapName, (ckt, which, foo, steptype, &ptemp));
    tfree(steptype);
    parm = INPgetValue(ckt, &line, IF_INTEGER, tab); /* number of points */
    GCA(INPapName, (ckt, which, foo, "numsteps", parm));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* fstart */
    GCA(INPapName, (ckt, which, foo, "start", parm));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* fstop */
    GCA(INPapName, (ckt, which, foo, "stop", parm));
    return (0);
}
Beispiel #2
0
static int
dot_tran(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
         TSKtask *task, CKTnode *gnode, JOB *foo)
{
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    int which;			/* which analysis we are performing */
    double dtemp;		/* random double precision temporary */
    char *word;			/* something to stick a word of input into */

    NG_IGNORE(gnode);

    /* .tran Tstep Tstop <Tstart <Tmax> > <UIC> */
    which = ft_find_analysis("TRAN");
    if (which == -1) {
        LITERR("Transient analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "Transient Analysis", &foo, task));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* Tstep */
    GCA(INPapName, (ckt, which, foo, "tstep", parm));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* Tstop */
    GCA(INPapName, (ckt, which, foo, "tstop", parm));
    if (*line) {
        dtemp = INPevaluate(&line, &error, 1);	/* tstart? */
        if (error == 0) {
            ptemp.rValue = dtemp;
            GCA(INPapName, (ckt, which, foo, "tstart", &ptemp));
            dtemp = INPevaluate(&line, &error, 1);	/* tmax? */
            if (error == 0) {
                ptemp.rValue = dtemp;
                GCA(INPapName, (ckt, which, foo, "tmax", &ptemp));
            }
        }
    }
    if (*line) {
        INPgetTok(&line, &word, 1);	/* uic? */
        if (strcmp(word, "uic") == 0) {
            ptemp.iValue = 1;
            GCA(INPapName, (ckt, which, foo, "uic", &ptemp));
        } else {
            LITERR(" Error: unknown parameter on .tran - ignored\n");
        }
        tfree(word);
    }
    return (0);
}
Beispiel #3
0
/*SP: Steady State Analyis */
static int
dot_pss(char *line, void *ckt, INPtables *tab, struct card *current,
        void *task, void *gnode, JOB *foo)
{
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    char *nname;		/* the oscNode name */
    CKTnode *nnode;		/* the oscNode node */
    int which;			/* which analysis we are performing */
    char *word;			/* something to stick a word of input into */

    NG_IGNORE(gnode);

    /* .pss Fguess StabTime OscNode <UIC>*/
    which = ft_find_analysis("PSS");
    if (which == -1) {
        LITERR("Periodic steady state analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "Periodic Steady State Analysis", &foo, task));

    parm = INPgetValue(ckt, &line, IF_REAL, tab);		/* Fguess */
    GCA(INPapName, (ckt, which, foo, "fguess", parm));

    parm = INPgetValue(ckt, &line, IF_REAL, tab);		/* StabTime */
    GCA(INPapName, (ckt, which, foo, "stabtime", parm));

    INPgetNetTok(&line, &nname, 0);
    INPtermInsert(ckt, &nname, tab, &nnode);
    ptemp.nValue = nnode;
    GCA(INPapName, (ckt, which, foo, "oscnode", &ptemp));	/* OscNode given as string */

    parm = INPgetValue(ckt, &line, IF_INTEGER, tab);		/* PSS points */
    GCA(INPapName, (ckt, which, foo, "points", parm));

    parm = INPgetValue(ckt, &line, IF_INTEGER, tab);		/* PSS harmonics */
    GCA(INPapName, (ckt, which, foo, "harmonics", parm));

    parm = INPgetValue(ckt, &line, IF_INTEGER, tab);		/* SC iterations */
    GCA(INPapName, (ckt, which, foo, "sc_iter", parm));

    parm = INPgetValue(ckt, &line, IF_REAL, tab);		/* Steady coefficient */
    GCA(INPapName, (ckt, which, foo, "steady_coeff", parm));

    if (*line) {
        INPgetTok(&line, &word, 1);	/* uic? */
        if (strcmp(word, "uic") == 0) {
            ptemp.iValue = 1;
            GCA(INPapName, (ckt, which, foo, "uic", &ptemp));
        } else {
            fprintf(stderr,"Error: unknown parameter %s on .pss - ignored\n", word);
        }
    }
    return (0);
}
Beispiel #4
0
static int
dot_tf(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
       TSKtask *task, CKTnode *gnode, JOB *foo)
{
    char *name;			/* the resistor's name */
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    int which;			/* which analysis we are performing */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */

    /* .tf v( node1, node2 ) src */
    /* .tf vsrc2             src */
    which = ft_find_analysis("TF");
    if (which == -1) {
        LITERR("Transfer Function analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "Transfer Function", &foo, task));
    INPgetTok(&line, &name, 0);
    /* name is now either V or I or a serious error */
    if (*name == 'v' && strlen(name) == 1) {
        if (*line != '(' ) {
            /* error, bad input format */
        }
        INPgetNetTok(&line, &nname1, 0);
        INPtermInsert(ckt, &nname1, tab, &node1);
        ptemp.nValue = node1;
        GCA(INPapName, (ckt, which, foo, "outpos", &ptemp));
        if (*line != ')') {
            INPgetNetTok(&line, &nname2, 1);
            INPtermInsert(ckt, &nname2, tab, &node2);
            ptemp.nValue = node2;
            GCA(INPapName, (ckt, which, foo, "outneg", &ptemp));
            ptemp.sValue = tprintf("V(%s,%s)", nname1, nname2);
            GCA(INPapName, (ckt, which, foo, "outname", &ptemp));
        } else {
            ptemp.nValue = gnode;
            GCA(INPapName, (ckt, which, foo, "outneg", &ptemp));
            ptemp.sValue = tprintf("V(%s)", nname1);
            GCA(INPapName, (ckt, which, foo, "outname", &ptemp));
        }
    } else if (*name == 'i' && strlen(name) == 1) {
        INPgetTok(&line, &name, 1);
        INPinsert(&name, tab);
        ptemp.uValue = name;
        GCA(INPapName, (ckt, which, foo, "outsrc", &ptemp));
    } else {
        LITERR("Syntax error: voltage or current expected.\n");
        return 0;
    }
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    ptemp.uValue = name;
    GCA(INPapName, (ckt, which, foo, "insrc", &ptemp));
    return (0);
}
Beispiel #5
0
void INP2G(void *ckt, INPtables * tab, card * current)
{

/* Gname <node> <node> <node> <node> <val> */

    int type;			/* the type the model says it is */
    char *line;			/* the part of the current line left to parse */
    char *name;			/* the resistor's name */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    char *nname3;		/* the third node's name */
    char *nname4;		/* the fourth node's name */
    void *node1;		/* the first node's node pointer */
    void *node2;		/* the second node's node pointer */
    void *node3;		/* the third node's node pointer */
    void *node4;		/* the fourth node's node pointer */
    int error;			/* error code temporary */
    void *fast;			/* pointer to the actual instance */
    IFvalue ptemp;		/* a value structure to package resistance into */
    int waslead;		/* flag to indicate that funny unlabeled number was found */
    double leadval;		/* actual value of unlabeled number */
    IFuid uid;			/* uid of default model to be created */

    type = INPtypelook("VCCS");
    if (type < 0) {
	LITERR("Device type VCCS not supported by this binary\n");
	return;
    }
    line = current->line;
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    INPgetNetTok(&line, &nname1, 1);
    INPtermInsert(ckt, &nname1, tab, &node1);
    INPgetNetTok(&line, &nname2, 1);
    INPtermInsert(ckt, &nname2, tab, &node2);
    INPgetNetTok(&line, &nname3, 1);
    INPtermInsert(ckt, &nname3, tab, &node3);
    INPgetNetTok(&line, &nname4, 1);
    INPtermInsert(ckt, &nname4, tab, &node4);
    if (!tab->defGmod) {
	/* create default G model */
	IFnewUid(ckt, &uid, (IFuid) NULL, "G", UID_MODEL, (void **) NULL);
	IFC(newModel, (ckt, type, &(tab->defGmod), uid));
    }
    IFC(newInstance, (ckt, tab->defGmod, &fast, name));
    IFC(bindNode, (ckt, fast, 1, node1));
    IFC(bindNode, (ckt, fast, 2, node2));
    IFC(bindNode, (ckt, fast, 3, node3));
    IFC(bindNode, (ckt, fast, 4, node4));
    PARSECALL((&line, ckt, type, fast, &leadval, &waslead, tab));
    if (waslead) {
	ptemp.rValue = leadval;
	GCA(INPpName, ("gain", &ptemp, ckt, type, fast));
    }
}
Beispiel #6
0
static int
dot_pz(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
       TSKtask *task, CKTnode *gnode, JOB *foo)
{
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    int which;			/* which analysis we are performing */
    char *steptype;		/* ac analysis, type of stepping function */

    NG_IGNORE(gnode);

    /* .pz nodeI nodeG nodeJ nodeK {V I} {POL ZER PZ} */
    which = ft_find_analysis("PZ");
    if (which == -1) {
        LITERR("Pole-zero analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "Pole-Zero Analysis", &foo, task));
    parm = INPgetValue(ckt, &line, IF_NODE, tab);
    GCA(INPapName, (ckt, which, foo, "nodei", parm));
    parm = INPgetValue(ckt, &line, IF_NODE, tab);
    GCA(INPapName, (ckt, which, foo, "nodeg", parm));
    parm = INPgetValue(ckt, &line, IF_NODE, tab);
    GCA(INPapName, (ckt, which, foo, "nodej", parm));
    parm = INPgetValue(ckt, &line, IF_NODE, tab);
    GCA(INPapName, (ckt, which, foo, "nodek", parm));
    INPgetTok(&line, &steptype, 1);	/* get V or I */
    ptemp.iValue = 1;
    GCA(INPapName, (ckt, which, foo, steptype, &ptemp));
    INPgetTok(&line, &steptype, 1);	/* get POL, ZER, or PZ */
    ptemp.iValue = 1;
    GCA(INPapName, (ckt, which, foo, steptype, &ptemp));
    return (0);
}
Beispiel #7
0
static int
dot_dc(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
       TSKtask *task, CKTnode *gnode, JOB *foo)
{
    char *name;			/* the resistor's name */
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    int which;			/* which analysis we are performing */

    NG_IGNORE(gnode);

    /* .dc SRC1NAME Vstart1 Vstop1 Vinc1 [SRC2NAME Vstart2 */
    /*        Vstop2 Vinc2 */
    which = ft_find_analysis("DC");
    if (which == -1) {
        LITERR("DC transfer curve analysis unsupported\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "DC transfer characteristic", &foo, task));
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    ptemp.uValue = name;
    GCA(INPapName, (ckt, which, foo, "name1", &ptemp));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* vstart1 */
    GCA(INPapName, (ckt, which, foo, "start1", parm));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* vstop1 */
    GCA(INPapName, (ckt, which, foo, "stop1", parm));
    parm = INPgetValue(ckt, &line, IF_REAL, tab);	/* vinc1 */
    GCA(INPapName, (ckt, which, foo, "step1", parm));
    if (*line) {
        INPgetTok(&line, &name, 1);
        INPinsert(&name, tab);
        ptemp.uValue = name;
        GCA(INPapName, (ckt, which, foo, "name2", &ptemp));
        parm = INPgetValue(ckt, &line, IF_REAL, tab); /* vstart2 */
        GCA(INPapName, (ckt, which, foo, "start2", parm));
        parm = INPgetValue(ckt, &line, IF_REAL, tab); /* vstop2 */
        GCA(INPapName, (ckt, which, foo, "stop2", parm));
        parm = INPgetValue(ckt, &line, IF_REAL, tab); /* vinc2 */
        GCA(INPapName, (ckt, which, foo, "step2", parm));
    }
    return 0;
}
Beispiel #8
0
static int
dot_sens(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
         TSKtask *task, CKTnode *gnode, JOB *foo)
{
    char *name;			/* the resistor's name */
    int error;			/* error code temporary */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    int which;			/* which analysis we are performing */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */
    char *steptype;		/* ac analysis, type of stepping function */

    which = ft_find_analysis("SENS");
    if (which == -1) {
        LITERR("Sensitivity unsupported.\n");
        return (0);
    }

    IFC(newAnalysis, (ckt, which, "Sensitivity Analysis", &foo, task));

    /* Format is:
     *      .sens <output>
     *      + [ac [dec|lin|oct] <pts> <low freq> <high freq> | dc ]
     */
    /* Get the output voltage or current */
    INPgetTok(&line, &name, 0);
    /* name is now either V or I or a serious error */
    if (*name == 'v' && strlen(name) == 1) {
        if (*line != '(') {
            LITERR("Syntax error: '(' expected after 'v'\n");
            return 0;
        }
        INPgetNetTok(&line, &nname1, 0);
        INPtermInsert(ckt, &nname1, tab, &node1);
        ptemp.nValue = node1;
        GCA(INPapName, (ckt, which, foo, "outpos", &ptemp));

        if (*line != ')') {
            INPgetNetTok(&line, &nname2, 1);
            INPtermInsert(ckt, &nname2, tab, &node2);
            ptemp.nValue = node2;
            GCA(INPapName, (ckt, which, foo, "outneg", &ptemp));
            ptemp.sValue = tprintf("V(%s,%s)", nname1, nname2);
            GCA(INPapName, (ckt, which, foo, "outname", &ptemp));
        } else {
            ptemp.nValue = gnode;
            GCA(INPapName, (ckt, which, foo, "outneg", &ptemp));
            ptemp.sValue = tprintf("V(%s)", nname1);
            GCA(INPapName, (ckt, which, foo, "outname", &ptemp));
        }
    } else if (*name == 'i' && strlen(name) == 1) {
        INPgetTok(&line, &name, 1);
        INPinsert(&name, tab);
        ptemp.uValue = name;
        GCA(INPapName, (ckt, which, foo, "outsrc", &ptemp));
    } else {
        LITERR("Syntax error: voltage or current expected.\n");
        return 0;
    }

    INPgetTok(&line, &name, 1);
    if (name && !strcmp(name, "pct")) {
        ptemp.iValue = 1;
        GCA(INPapName, (ckt, which, foo, "pct", &ptemp));
        INPgetTok(&line, &name, 1);
    }
    if (name && !strcmp(name, "ac")) {
        INPgetTok(&line, &steptype, 1);	/* get DEC, OCT, or LIN */
        ptemp.iValue = 1;
        GCA(INPapName, (ckt, which, foo, steptype, &ptemp));
        parm = INPgetValue(ckt, &line, IF_INTEGER, tab); /* number of points */
        GCA(INPapName, (ckt, which, foo, "numsteps", parm));
        parm = INPgetValue(ckt, &line, IF_REAL, tab); /* fstart */
        GCA(INPapName, (ckt, which, foo, "start", parm));
        parm = INPgetValue(ckt, &line, IF_REAL, tab); /* fstop */
        GCA(INPapName, (ckt, which, foo, "stop", parm));
        return (0);
    } else if (name && *name && strcmp(name, "dc")) {
        /* Bad flag */
        LITERR("Syntax error: 'ac' or 'dc' expected.\n");
        return 0;
    }
    return (0);
}
Beispiel #9
0
static int
dot_noise(char *line, CKTcircuit *ckt, INPtables *tab, struct card *current,
          TSKtask *task, CKTnode *gnode, JOB *foo)
{
    int which;			/* which analysis we are performing */
    int error;			/* error code temporary */
    char *name;			/* the resistor's name */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    char *steptype;		/* ac analysis, type of stepping function */

    int found;
    char *point;

    /* .noise V(OUTPUT,REF) SRC {DEC OCT LIN} NP FSTART FSTOP <PTSPRSUM> */
    which = ft_find_analysis("NOISE");
    if (which == -1) {
        LITERR("Noise analysis unsupported.\n");
        return (0);
    }
    IFC(newAnalysis, (ckt, which, "Noise Analysis", &foo, task));
    INPgetTok(&line, &name, 1);

    /* Make sure the ".noise" command is followed by V(xxxx).  If it
       is, extract 'xxxx'.  If not, report an error. */

    if (name != NULL) {

        if ((*name == 'V' || *name == 'v') && !name[1]) {

            INPgetNetTok(&line, &nname1, 0);
            INPtermInsert(ckt, &nname1, tab, &node1);
            ptemp.nValue = node1;
            GCA(INPapName, (ckt, which, foo, "output", &ptemp));

            if (*line != ')') {
                INPgetNetTok(&line, &nname2, 1);
                INPtermInsert(ckt, &nname2, tab, &node2);
                ptemp.nValue = node2;
            } else {
                ptemp.nValue = gnode;
            }
            GCA(INPapName, (ckt, which, foo, "outputref", &ptemp));

            tfree(name);
            INPgetTok(&line, &name, 1);
            INPinsert(&name, tab);
            ptemp.uValue = name;
            GCA(INPapName, (ckt, which, foo, "input", &ptemp));

            INPgetTok(&line, &steptype, 1);
            ptemp.iValue = 1;
            error = INPapName(ckt, which, foo, steptype, &ptemp);
            tfree(steptype);
            if (error)
                current->error = INPerrCat(current->error, INPerror(error));
            parm = INPgetValue(ckt, &line, IF_INTEGER, tab);
            error = INPapName(ckt, which, foo, "numsteps", parm);
            if (error)
                current->error = INPerrCat(current->error, INPerror(error));
            parm = INPgetValue(ckt, &line, IF_REAL, tab);
            error = INPapName(ckt, which, foo, "start", parm);
            if (error)
                current->error = INPerrCat(current->error, INPerror(error));
            parm = INPgetValue(ckt, &line, IF_REAL, tab);
            error = INPapName(ckt, which, foo, "stop", parm);
            if (error)
                current->error = INPerrCat(current->error, INPerror(error));

            /* now see if "ptspersum" has been specified by the user */

            for (found = 0, point = line; (!found) && (*point != '\0'); found = ((*point != ' ') && (*(point++) != '\t')))
                ;
            if (found) {
                parm = INPgetValue(ckt, &line, IF_INTEGER, tab);
                error = INPapName(ckt, which, foo, "ptspersum", parm);
                if (error)
                    current->error = INPerrCat(current->error, INPerror(error));
            } else {
                ptemp.iValue = 0;
                error = INPapName(ckt, which, foo, "ptspersum", &ptemp);
                if (error)
                    current->error = INPerrCat(current->error, INPerror(error));
            }
        } else
            LITERR("bad syntax "
                   "[.noise v(OUT) SRC {DEC OCT LIN} "
                   "NP FSTART FSTOP <PTSPRSUM>]\n");
    } else {
        LITERR("bad syntax "
               "[.noise v(OUT) SRC {DEC OCT LIN} "
               "NP FSTART FSTOP <PTSPRSUM>]\n");
    }
    return 0;
}
Beispiel #10
0
static int
dot_noise(char *line, void *ckt, INPtables *tab, card *current,
	  void *task, void *gnode, void *foo)
{
    int which;			/* which analysis we are performing */
    int i;			/* generic loop variable */
    int error;			/* error code temporary */
    char *name;			/* the resistor's name */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    void *node1;		/* the first node's node pointer */
    void *node2;		/* the second node's node pointer */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* a pointer to a value struct for function returns */
    char *steptype;		/* ac analysis, type of stepping function */

    int found;
    char *point;

    /* .noise V(OUTPUT,REF) SRC {DEC OCT LIN} NP FSTART FSTOP <PTSPRSUM> */
    which = -1;
    for (i = 0; i < ft_sim->numAnalyses; i++) {
	if (strcmp(ft_sim->analyses[i]->name, "NOISE") == 0) {
	    which = i;
	    break;
	}
    }
    if (which == -1) {
	LITERR("Noise analysis unsupported.\n");
	return (0);
    }
    IFC(newAnalysis, (ckt, which, "Noise Analysis", &foo, task));
    INPgetTok(&line, &name, 1);

    /* Make sure the ".noise" command is followed by V(xxxx).  If it
       is, extract 'xxxx'.  If not, report an error. */

    if (name != NULL) {
	int length;

	length = strlen(name);
	if (((*name == 'V') || (*name == 'v')) && (length == 1)) {

	    INPgetNetTok(&line, &nname1, 0);
	    INPtermInsert(ckt, &nname1, tab, &node1);
	    ptemp.nValue = (IFnode) node1;
	    GCA(INPapName, (ckt, which, foo, "output", &ptemp))

		if (*line != ')') {
		    INPgetNetTok(&line, &nname2, 1);
		    INPtermInsert(ckt, &nname2, tab, &node2);
		    ptemp.nValue = (IFnode) node2;
		} else {
		    ptemp.nValue = (IFnode) gnode;
		}
	    GCA(INPapName, (ckt, which, foo, "outputref", &ptemp))

		INPgetTok(&line, &name, 1);
	    INPinsert(&name, tab);
	    ptemp.uValue = name;
	    GCA(INPapName, (ckt, which, foo, "input", &ptemp))

		INPgetTok(&line, &steptype, 1);
	    ptemp.iValue = 1;
	    error = INPapName(ckt, which, foo, steptype, &ptemp);
	    if (error)
		current->error = INPerrCat(current->error, INPerror(error));
	    parm = INPgetValue(ckt, &line, IF_INTEGER, tab);
	    error = INPapName(ckt, which, foo, "numsteps", parm);
	    if (error)
		current->error = INPerrCat(current->error, INPerror(error));
	    parm = INPgetValue(ckt, &line, IF_REAL, tab);
	    error = INPapName(ckt, which, foo, "start", parm);
	    if (error)
		current->error = INPerrCat(current->error, INPerror(error));
	    parm = INPgetValue(ckt, &line, IF_REAL, tab);
	    error = INPapName(ckt, which, foo, "stop", parm);
	    if (error)
		current->error = INPerrCat(current->error, INPerror(error));

	    /* now see if "ptspersum" has been specified by the user */

	    for (found = 0, point = line; (!found) && (*point != '\0');
		 found = ((*point != ' ') && (*(point++) != '\t')));
	    if (found) {
		parm = INPgetValue(ckt, &line, IF_INTEGER, tab);
		error = INPapName(ckt, which, foo, "ptspersum", parm);
		if (error)
		    current->error = INPerrCat(current->error, INPerror(error));
	    } else {
		ptemp.iValue = 0;
		error = INPapName(ckt, which, foo, "ptspersum", &ptemp);
		if (error)
		    current->error = INPerrCat(current->error, INPerror(error));
	    }
	} else
Beispiel #11
0
void INP2Z(CKTcircuit *ckt, INPtables * tab, card * current)
{

    /* Zname <node> <node> <node> <model> [<val>] [OFF] [IC=<val>,<val>] */

    int type;			/* the type the model says it is */
    char *line;			/* the part of the current line left to parse */
    char *name;			/* the resistor's name */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    char *nname3;		/* the third node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */
    CKTnode *node3;		/* the third node's node pointer */
    int error;			/* error code temporary */
    GENinstance *fast;		/* pointer to the actual instance */
    IFvalue ptemp;		/* a value structure to package resistance into */
    int waslead;		/* flag to indicate that funny unlabeled number was found */
    double leadval;		/* actual value of unlabeled number */
    char *model;		/* the name of the model */
    INPmodel *thismodel;	/* pointer to model description for user's model */
    GENmodel *mdfast;		/* pointer to the actual model */
    IFuid uid;			/* uid for default model */

   
    line = current->line;
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    INPgetNetTok(&line, &nname1, 1);
    INPtermInsert(ckt, &nname1, tab, &node1);
    INPgetNetTok(&line, &nname2, 1);
    INPtermInsert(ckt, &nname2, tab, &node2);
    INPgetNetTok(&line, &nname3, 1);
    INPtermInsert(ckt, &nname3, tab, &node3);
    INPgetTok(&line, &model, 1);
    INPinsert(&model, tab);
    thismodel = NULL;
    current->error = INPgetMod(ckt, model, &thismodel, tab);
    if (thismodel != NULL) {
		if (   thismodel->INPmodType != INPtypelook("MES") 
    		    && thismodel->INPmodType != INPtypelook("MESA")
    		    && thismodel->INPmodType != INPtypelook("HFET1")
    		    && thismodel->INPmodType != INPtypelook("HFET2")) 
    	{
            LITERR("incorrect model type");
            return;
        }
	
	
	type = thismodel->INPmodType;
	mdfast = (thismodel->INPmodfast);
    } else {
    	
     type = INPtypelook("MES");
	if (type < 0 ) {
			LITERR("Device type MES not supported by this binary\n");
           	return;
        }    
		
	if (!tab->defZmod) {
	    /* create default Z model */
	    IFnewUid(ckt, &uid, NULL, "Z", UID_MODEL, NULL);
	    IFC(newModel, (ckt, type, &(tab->defZmod), uid));
	}
	mdfast = tab->defZmod;
    }
    IFC(newInstance, (ckt, mdfast, &fast, name));
    IFC(bindNode, (ckt, fast, 1, node1));
    IFC(bindNode, (ckt, fast, 2, node2));
    IFC(bindNode, (ckt, fast, 3, node3));
    PARSECALL((&line, ckt, type, fast, &leadval, &waslead, tab));
  /* use type - not thismodel->INPmodType as it might not exist! */
    /* FIXME: Why do we need checking for type here? */
    if ( (waslead) && ( type /*thismodel->INPmodType*/ != INPtypelook("MES") ) ) {
	ptemp.rValue = leadval;
	GCA(INPpName, ("area", &ptemp, ckt, type, fast));
    }
}
Beispiel #12
0
void INP2W(CKTcircuit *ckt, INPtables * tab, card * current)
{

    /* Wname <node> <node> <vctrl> [<modname>] [IC] */
    /* CURRENT CONTROLLED SWITCH */

    int mytype;			/* the type we determine resistors are */
    int type;			/* the type the model says it is */
    char *line;			/* the part of the current line left to parse */
    char *name;			/* the resistor's name */
    char *model;		/* the name of the resistor's model */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */
    int error;			/* error code temporary */
    INPmodel *thismodel;	/* pointer to model structure describing our model */
    GENmodel *mdfast;		/* pointer to the actual model */
    GENinstance *fast;		/* pointer to the actual instance */
    IFvalue ptemp;		/* a value structure to package resistance into */
    IFvalue *parm;		/* pointer to a value structure for functions to return */
    int waslead;		/* flag to indicate that funny unlabeled number was found */
    double leadval;		/* actual value of unlabeled number */
    IFuid uid;			/* uid for default model */

    mytype = INPtypelook("CSwitch");
    if (mytype < 0) {
	LITERR("Device type CSwitch not supported by this binary\n");
	return;
    }
    line = current->line;
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    INPgetNetTok(&line, &nname1, 1);
    INPtermInsert(ckt, &nname1, tab, &node1);
    INPgetNetTok(&line, &nname2, 1);
    INPtermInsert(ckt, &nname2, tab, &node2);
    parm = INPgetValue(ckt, &line, IF_INSTANCE, tab);
    ptemp.uValue = parm->uValue;

    INPgetTok(&line, &model, 1);
    INPinsert(&model, tab);
    current->error = INPgetMod(ckt, model, &thismodel, tab);
    if (thismodel != NULL) {
	if (mytype != thismodel->INPmodType) {
	    LITERR("incorrect model type");
	    return;
	}
	type = mytype;
	mdfast = (thismodel->INPmodfast);
    } else {
	type = mytype;
	if (!tab->defWmod) {
	    /* create deafult W model */
	    IFnewUid(ckt, &uid, NULL, "W", UID_MODEL, NULL);
	    IFC(newModel, (ckt, type, &(tab->defWmod), uid));
	}
	mdfast = tab->defWmod;
    }
    IFC(newInstance, (ckt, mdfast, &fast, name));

    GCA(INPpName, ("control", &ptemp, ckt, type, fast));
    IFC(bindNode, (ckt, fast, 1, node1));
    IFC(bindNode, (ckt, fast, 2, node2));
    PARSECALL((&line, ckt, type, fast, &leadval, &waslead, tab));
    if (waslead) {
	/* ignore a number */
    }
}
Beispiel #13
0
void INP2D(CKTcircuit *ckt, INPtables * tab, card * current)
{

/* Dname <node> <node> <model> [<val>] [OFF] [IC=<val>] */

    int mytype;			/* the type we looked up */
    int type;			/* the type the model says it is */
    char *line;			/* the part of the current line left to parse */
    char *name;			/* the resistor's name */
    char *nname1;		/* the first node's name */
    char *nname2;		/* the second node's name */
    CKTnode *node1;		/* the first node's node pointer */
    CKTnode *node2;		/* the second node's node pointer */
    int error;			/* error code temporary */
    GENinstance *fast;		/* pointer to the actual instance */
    IFvalue ptemp;		/* a value structure to package resistance into */
    int waslead;		/* flag to indicate that funny unlabeled number was found */
    double leadval;		/* actual value of unlabeled number */
    char *model;		/* the name of the model */
    INPmodel *thismodel;	/* pointer to model description for user's model */
    GENmodel *mdfast;		/* pointer to the actual model */
    IFuid uid;			/* uid of default model */

    mytype = INPtypelook("Diode");
    if (mytype < 0) {
	LITERR("Device type Diode not supported by this binary\n");
	return;
    }
    line = current->line;
    INPgetTok(&line, &name, 1);
    INPinsert(&name, tab);
    INPgetNetTok(&line, &nname1, 1);
    INPtermInsert(ckt, &nname1, tab, &node1);
    INPgetNetTok(&line, &nname2, 1);
    INPtermInsert(ckt, &nname2, tab, &node2);
    INPgetTok(&line, &model, 1);
    INPinsert(&model, tab);
    current->error = INPgetMod(ckt, model, &thismodel, tab);
    if (thismodel != NULL) {
	if ((mytype != thismodel->INPmodType)

#ifdef CIDER
                      && (thismodel->INPmodType != INPtypelook("NUMD"))
                      && (thismodel->INPmodType != INPtypelook("NUMD2"))
#endif
       ){
	    LITERR("incorrect model type");
	    return;
	}
	type = thismodel->INPmodType; /*HT 050903*/
	mdfast = (thismodel->INPmodfast);
    } else {
	type = mytype;
	if (!tab->defDmod) {
	    /* create default D model */
	    IFnewUid(ckt, &uid, NULL, "D", UID_MODEL, NULL);
	    IFC(newModel, (ckt, type, &(tab->defDmod), uid));
	}
	mdfast = tab->defDmod;
    }
    IFC(newInstance, (ckt, mdfast, &fast, name));
    IFC(bindNode, (ckt, fast, 1, node1));
    IFC(bindNode, (ckt, fast, 2, node2));
    PARSECALL((&line, ckt, type, fast, &leadval, &waslead, tab));
    if (waslead) {

#ifdef CIDER
    	if( type == INPtypelook("NUMD2") ) {
            LITERR(" error:  no unlabelled parameter permitted on NUMD2\n");
	} else {
#endif
	ptemp.rValue = leadval;
	GCA(INPpName, ("area", &ptemp, ckt, type, fast));
    }
#ifdef CIDER    
  }
#endif
}
Beispiel #14
0
void INP2C(CKTcircuit *ckt, INPtables * tab, struct card *current)
{

/* parse a capacitor card */
/* Cname <node> <node> [<val>] [<mname>] [IC=<val>] */

    static int mytype = -1; /* the type we determine capacitors are */
    int type = 0;        /* the type the model says it is */
    char *line;          /* the part of the current line left to parse */
    char *saveline;      /* ... just in case we need to go back... */
    char *name;          /* the resistor's name */
    char *model;         /* the name of the capacitor's model */
    char *nname1;        /* the first node's name */
    char *nname2;        /* the second node's name */
    CKTnode *node1;      /* the first node's node pointer */
    CKTnode *node2;      /* the second node's node pointer */
    double val;          /* temp to held resistance */
    int error;           /* error code temporary */
    int error1;          /* secondary error code temporary */
    INPmodel *thismodel; /* pointer to model structure describing our model */
    GENmodel *mdfast = NULL; /* pointer to the actual model */
    GENinstance *fast;   /* pointer to the actual instance */
    IFvalue ptemp;       /* a value structure to package resistance into */
    int waslead;         /* flag to indicate that funny unlabeled number was found */
    double leadval;      /* actual value of unlabeled number */
    IFuid uid;           /* uid for default cap model */

#ifdef TRACE
    printf("In INP2C, Current line: %s\n", current->line);
#endif

    if (mytype < 0) {
        if ((mytype = INPtypelook("Capacitor")) < 0) {
            LITERR("Device type Capacitor not supported by this binary\n");
            return;
        }
    }
    line = current->line;
    INPgetNetTok(&line, &name, 1);
    INPinsert(&name, tab);
    INPgetNetTok(&line, &nname1, 1);
    INPtermInsert(ckt, &nname1, tab, &node1);
    INPgetNetTok(&line, &nname2, 1);
    INPtermInsert(ckt, &nname2, tab, &node2);
    val = INPevaluate(&line, &error1, 1);
    
    saveline = line;
    
    INPgetNetTok(&line, &model, 1);
    
    if (*model && (strcmp(model, "c") != 0)) {
    /* token isn't null */
      if (INPlookMod(model)) {
          /* If this is a valid model connect it */
          INPinsert(&model, tab);
          current->error = INPgetMod(ckt, model, &thismodel, tab);
          if (thismodel != NULL) {
          if (mytype != thismodel->INPmodType) {
              LITERR("incorrect model type");
              return;
          }
          mdfast = thismodel->INPmodfast;
          type = thismodel->INPmodType;
          }
      } else {
          tfree(model);
          /* It is not a model */
          line = saveline;    /* go back */
          type = mytype;
          if (!tab->defCmod) {    /* create default C model */
          IFnewUid(ckt, &uid, NULL, "C", UID_MODEL, NULL);
          IFC(newModel, (ckt, type, &(tab->defCmod), uid));
          }
          mdfast = tab->defCmod;
      }
      IFC(newInstance, (ckt, mdfast, &fast, name));
    } else {
      tfree(model);
      /* The token is null and a default model will be created */
      type = mytype;
      if (!tab->defCmod) {
          /* create default C model */
          IFnewUid(ckt, &uid, NULL, "C", UID_MODEL, NULL);
          IFC(newModel, (ckt, type, &(tab->defCmod), uid));
      }
      IFC(newInstance, (ckt, tab->defCmod, &fast, name));
      if (error1 == 1) {		/* was a c=val construction */
        val = INPevaluate(&line, &error1, 1);	/* [<val>] */
#ifdef TRACE
        printf ("In INP2C, C=val construction: val=%g\n", val);
#endif
      }
    }
    
    if (error1 == 0) {        /* Looks like a number */
      ptemp.rValue = val;
      GCA(INPpName, ("capacitance", &ptemp, ckt, type, fast));
    } 
    
    IFC(bindNode, (ckt, fast, 1, node1));
    IFC(bindNode, (ckt, fast, 2, node2));
    PARSECALL((&line, ckt, type, fast, &leadval, &waslead, tab));
    if (waslead) {
      ptemp.rValue = leadval;
      GCA(INPpName, ("capacitance", &ptemp, ckt, type, fast));
    }

    return;
}