/********** Copyright 1990 Regents of the University of California. All rights reserved. Author: 1986 Thomas L. Quarles **********/ #ifndef IFSIMULATOR #define IFSIMULATOR #include "typedefs.h" /* gtri - add - wbk - 10/11/90 - for structs referenced in IFdevice */ #ifdef XSPICE #include "mifparse.h" #include "mifcmdat.h" #endif /* gtri - end - wbk - 10/11/90 */ /* * structure: IFparm * * * The structure used to describe all values passed * between the front end and the simulator when there is any * possibility one argument of the function could have more * than one type. * * keyword is provided for the front end and is the token * the user is expected to label the data with. * * id is an integer intended to uniquely identify the parameter * to the simulator * * dataType is an integer which indicates the type of argument * that must be passed for this parameter * * description is a longer description intended for help menus * the description should all fit on one line, but should * give a knowledgable user a good idea what the parameter is * used for. */ struct IFparm { char *keyword; int id; int dataType; char *description; }; /* * datatype: IFuid * * unique identifier for all name-type data in the simulator. * this permits the front end to use something other than * a unique, fully qualified character string to identify * an object. * */ /* moved to "typedefs.h" * typedef char *IFuid; */ /* * * types for IFnewUid * */ #define UID_ANALYSIS 0x1 #define UID_TASK 0x2 #define UID_INSTANCE 0x4 #define UID_MODEL 0x8 #define UID_SIGNAL 0x10 #define UID_OTHER 0x20 /* * dataType values: * * Note: These structures are put together by ORing together the * appropriate bits from the fields below as is shown for the vector * types. * IF_REQUIRED indicates that the parameter must be specified. * The front end does not NEED to check for this, but can to save time, * since failure to do so will cause the simulator to fail. * IF_SET indicates that the specified item is an input parameter. * IF_ASK indicates that the specified item is something the simulator * can provide information about. * IF_SET and IF_ASK are NOT mutually exclusive. * if IF_SET and IF_ASK are both zero, it indicates a parameter that * the simulator recoginizes are being a reasonable paremeter, but * which this simulator does not implement. */ #define IF_FLAG 0x1 #define IF_INTEGER 0x2 #define IF_REAL 0x4 #define IF_COMPLEX 0x8 #define IF_NODE 0x10 #define IF_STRING 0x20 #define IF_INSTANCE 0x40 #define IF_PARSETREE 0x80 /* indicates that for a query the integer field will have a selector * in it to pick a sub-field */ #define IF_SELECT 0x800 #define IF_VSELECT 0x400 /* indicates a vector of the specified type */ #define IF_VECTOR 0x8000 #define IF_FLAGVEC (IF_FLAG|IF_VECTOR) #define IF_INTVEC (IF_INTEGER|IF_VECTOR) #define IF_REALVEC (IF_REAL|IF_VECTOR) #define IF_CPLXVEC (IF_COMPLEX|IF_VECTOR) #define IF_NODEVEC (IF_NODE|IF_VECTOR) #define IF_STRINGVEC (IF_STRING|IF_VECTOR) #define IF_INSTVEC (IF_INSTANCE|IF_VECTOR) #define IF_REQUIRED 0x4000 #define IF_VARTYPES 0x80ff #define IF_SET 0x2000 #define IF_ASK 0x1000 /* If you AND with IF_UNIMP_MASK and get 0, it is recognized, but not * implemented */ #define IF_UNIMP_MASK (~0xfff) /* Used by sensetivity to check if a parameter is or is not useful */ #define IF_REDUNDANT 0x0010000 #define IF_PRINCIPAL 0x0020000 #define IF_AC 0x0040000 #define IF_AC_ONLY 0x0080000 #define IF_NOISE 0x0100000 #define IF_NONSENSE 0x0200000 #define IF_SETQUERY 0x0400000 #define IF_ORQUERY 0x0800000 #define IF_CHKQUERY 0x1000000 /* For "show" command: do not print value in a table by default */ #define IF_UNINTERESTING 0x2000000 /* Structure: IFparseTree * * This structure is returned by the parser for a IF_PARSETREE valued * parameter and describes the information that the simulator needs * to know about the parse tree in order to use it. * It is expected that the front end will have a more extensive * structure which this structure will be a prefix of. * * Note that the function pointer is provided as a hook for * versions which may want to compile code for the parse trees * if they are used heavily. * */ struct IFparseTree { int numVars; /* number of variables used */ int *varTypes; /* array of types of variables */ IFvalue *vars; /* array of structures describing values */ int (*IFeval) (IFparseTree *, double, double *, double *, double *); /* function to call to get evaluated */ }; /* * Structure: IFvalue * * structure used to pass the values corresponding to the above * dataType. All types are passed in one of these structures, with * relatively simple rules concerning the handling of the structure. * * whoever makes the subroutine call allocates a single instance of the * structure. The basic data structure belongs to you, and you * should arrange to free it when appropriate. * * The responsibilities of the data supplier are: * Any vectors referenced by the structure are to be tmalloc()'d * and are assumed to have been turned over to the recipient and * thus should not be re-used or tfree()'d. * * The responsibilities of the data recipient are: * scalar valued data is to be copied by the recipient * vector valued data is now the property of the recipient, * and must be tfree()'d when no longer needed. * * Character strings are a special case: Since it is assumed * that all character strings are directly descended from input * tokens, it is assumed that they are static, thus nobody * frees them until the circuit is deleted, when the front end * may do so. * * EVERYBODY's responsibility is to be SURE that the right data * is filled in and read out of the structure as per the IFparm * structure describing the parameter being passed. Programs * neglecting this rule are fated to die of data corruption * */ /* * Some preliminary definitions: * * IFnode's are returned by the simulator, thus we don't really * know what they look like, just that we get to carry pointers * to them around all the time, and will need to save them occasionally * */ typedef void *IFnode; /* * and of course, the standard complex data type */ struct IFcomplex { double real; double imag; }; union IFvalue { int iValue; /* integer or flag valued data */ double rValue; /* real valued data */ IFcomplex cValue; /* complex valued data */ char *sValue; /* string valued data */ IFuid uValue; /* UID valued data */ CKTnode *nValue; /* node valued data */ IFparseTree *tValue; /* parse tree */ struct { int numValue; /* length of vector */ union { int *iVec; /* pointer to integer vector */ double *rVec; /* pointer to real vector */ IFcomplex *cVec;/* pointer to complex vector */ char **sVec; /* pointer to string vector */ IFuid *uVec; /* pointer to UID vector */ IFnode *nVec; /* pointer to node vector */ } vec; } v; }; /* * structure: IFdevice * * This structure contains all the information available to the * front end about a particular device. The simulator will * present the front end with an array of pointers to these structures * which it will use to determine legal device types and parameters. * * Note to simulators: you are passing an array of pointers to * these structures, so you may in fact make this the first component * in a larger, more complex structure which includes other data * which you need, but which is not needed in the common * front end interface. * */ struct IFdevice { char *name; /* name of this type of device */ char *description; /* description of this type of device */ int *terms; /* number of terminals on this device */ int *numNames; /* number of names in termNames */ char **termNames; /* pointer to array of pointers to names */ /* array contains 'terms' pointers */ int *numInstanceParms; /* number of instance parameter descriptors */ IFparm *instanceParms; /* array of instance parameter descriptors */ int *numModelParms; /* number of model parameter descriptors */ IFparm *modelParms; /* array of model parameter descriptors */ /* gtri - modify - wbk - 10/11/90 - add entries to hold data required */ /* by new parser */ #ifdef XSPICE void (*cm_func) (Mif_Private_t *); /* pointer to code model function */ int num_conn; /* number of code model connections */ Mif_Conn_Info_t *conn; /* array of connection info for mif parser */ int num_param; /* number of parameters = numModelParms */ Mif_Param_Info_t *param; /* array of parameter info for mif parser */ int num_inst_var; /* number of instance vars = numInstanceParms */ Mif_Inst_Var_Info_t *inst_var; /* array of instance var info for mif parser */ /* gtri - end - wbk - 10/11/90 */ #endif int flags; /* DEV_ */ }; /* * Structure: IFanalysis * * This structure contains all the information available to the * front end about a particular analysis type. The simulator will * present the front end with an array of pointers to these structures * which it will use to determine legal analysis types and parameters. * * Note to simulators: As for IFdevice above, you pass an array of pointers * to these, so you can make this structure a prefix to a larger structure * which you use internally. * */ struct IFanalysis { char *name; /* name of this analysis type */ char *description; /* description of this type of analysis */ int numParms; /* number of analysis parameter descriptors */ IFparm *analysisParms; /* array of analysis parameter descriptors */ }; /* * Structure: IFsimulator * * This is what we have been leading up to all along. * This structure describes a simulator to the front end, and is * returned from the SIMinit command to the front end. * This is where all those neat structures we described in the first * few hundred lines of this file come from. * */ struct IFsimulator { char *simulator; /* the simulator's name */ char *description; /* description of this simulator */ char *version; /* version or revision level of simulator*/ int (*newCircuit) (CKTcircuit **); /* create new circuit */ int (*deleteCircuit) (CKTcircuit *); /* destroy old circuit's data structures*/ int (*newNode) (CKTcircuit *, CKTnode **, IFuid); /* create new node */ int (*groundNode) (CKTcircuit *, CKTnode **, IFuid); /* create ground node */ int (*bindNode) (CKTcircuit *, GENinstance *, int, CKTnode *); /* bind a node to a terminal */ int (*findNode) (CKTcircuit *, CKTnode **, IFuid); /* find a node by name */ int (*instToNode) (CKTcircuit *, void *, int, void **, IFuid *); /* find the node attached to a terminal */ int (*setNodeParm) (CKTcircuit *, CKTnode *, int, IFvalue *, IFvalue *); /* set a parameter on a node */ int (*askNodeQuest) (CKTcircuit *, CKTnode *, int, IFvalue *, IFvalue *); /* ask a question about a node */ int (*deleteNode) (CKTcircuit *, CKTnode *); /* delete a node from the circuit */ int (*newInstance) (CKTcircuit *, GENmodel *, GENinstance **, IFuid); /* create new instance */ int (*setInstanceParm) (CKTcircuit *, GENinstance *, int, IFvalue *, IFvalue *); /* set a parameter on an instance */ int (*askInstanceQuest) (CKTcircuit *, GENinstance *, int, IFvalue *, IFvalue *); /* ask a question about an instance */ int (*findInstance) (CKTcircuit *, int *, GENinstance **, IFuid, GENmodel *, IFuid); /* find a specific instance */ int (*deleteInstance) (CKTcircuit *, void *); /* delete an instance from the circuit */ int (*newModel) (CKTcircuit *, int, GENmodel **, IFuid); /* create new model */ int (*setModelParm) (CKTcircuit *, GENmodel *, int, IFvalue *, IFvalue *); /* set a parameter on a model */ int (*askModelQuest) (CKTcircuit *, GENmodel *, int, IFvalue *, IFvalue *); /* ask a questions about a model */ int (*findModel) (CKTcircuit *, int *, GENmodel **, IFuid); /* find a specific model */ int (*deleteModel) (CKTcircuit *, GENmodel *); /* delete a model from the circuit*/ int (*newTask) (CKTcircuit *, void **, IFuid, void **); /*CDHW*/ /* create a new task */ int (*newAnalysis) (CKTcircuit *, int, IFuid, void **, void *); /* create new analysis within a task */ int (*setAnalysisParm) (CKTcircuit *, void *, int, IFvalue *, IFvalue *); /* set a parameter on an analysis */ int (*askAnalysisQuest) (CKTcircuit *, void *, int, IFvalue *, IFvalue *); /* ask a question about an analysis */ int (*findAnalysis) (CKTcircuit *, int *, void **, IFuid, void *, IFuid); /* find a specific analysis */ int (*findTask) (CKTcircuit *, void **, IFuid); /* find a specific task */ int (*deleteTask) (CKTcircuit *, void *); /* delete a task */ int (*doAnalyses) (CKTcircuit *, int, void *); char *(*nonconvErr) (CKTcircuit *, char *); /* return nonconvergence error */ int numDevices; /* number of device types supported */ IFdevice **devices; /* array of device type descriptors */ int numAnalyses; /* number of analysis types supported */ IFanalysis **analyses; /* array of analysis type descriptors */ int numNodeParms; /* number of node parameters supported */ IFparm *nodeParms; /* array of node parameter descriptors */ int numSpecSigs; /* number of special signals legal in parse trees */ char **specSigs; /* names of special signals legal in parse trees */ }; /* * Structure: IFfrontEnd * * This structure provides the simulator with all the information * it needs about the front end. This is the entire set of * front end and back end related routines the simulator * should know about. * */ struct IFfrontEnd { int (*IFnewUid) (CKTcircuit *, IFuid *, IFuid, char *, int, CKTnode **); /* create a new UID in the circuit */ int (*IFdelUid) (CKTcircuit *, IFuid, int); /* create a new UID in the circuit */ int (*IFpauseTest) (void); /* should we stop now? */ double (*IFseconds) (void); /* what time is it? */ int (*IFerror) (int, char *, IFuid *); /* output an error or warning message */ int (*OUTpBeginPlot) (CKTcircuit *, void *, IFuid, IFuid, int, int, IFuid *, int, void **); /* start pointwise output plot */ int (*OUTpData) (void *, IFvalue *, IFvalue *); /* data for pointwise plot */ int (*OUTwBeginPlot) (CKTcircuit *, void *, IFuid, IFuid, int, int, IFuid *, int, void **); /* start windowed output plot */ int (*OUTwReference) (void *, IFvalue *, void **); /* independent vector for windowed plot */ int (*OUTwData) (void *, int, IFvalue *, void *); /* data for windowed plot */ int (*OUTwEnd) (void *); /* signal end of windows */ int (*OUTendPlot) (void *); /* end of plot */ int (*OUTbeginDomain) (void *, IFuid, int, IFvalue *); /* start nested domain */ int (*OUTendDomain) (void *); /* end nested domain */ int (*OUTattributes) (void *, IFuid, int, IFvalue *); /* specify output attributes of node */ }; /* flags for the first argument to IFerror */ #define ERR_WARNING 0x1 #define ERR_FATAL 0x2 #define ERR_PANIC 0x4 #define ERR_INFO 0x8 /* valid values for the second argument to doAnalyses */ /* continue the analysis from where we left off */ #define RESUME 0 /* start everything over from the beginning of this task*/ #define RESTART 1 /* abandon the current analysis and go on the the next in the task*/ #define SKIPTONEXT 2 #define OUT_SCALE_LIN 1 #define OUT_SCALE_LOG 2 #endif /*IFSIMULATOR*/