// Author: Jim Kowalkowski // Date: 2/96 // // $Id$ // // $Log$ // Revision 1.21 1999/01/28 19:12:46 jhill // fixed a mostly benign string array bounds over reach // // Revision 1.20 1998/06/16 03:12:40 jhill // added comments // // Revision 1.19 1998/04/16 21:16:09 jhill // allow copies of less than the number of elements returned // // Revision 1.18 1997/08/05 00:51:09 jhill // fixed problems in aitString and the conversion matrix // // Revision 1.17 1997/04/23 17:12:55 jhill // fixed export of symbols from WIN32 DLL // // Revision 1.16 1996/12/20 13:09:49 jbk // Working version, intermediate, still has problems // // Revision 1.15 1996/11/02 01:24:44 jhill // strcpy => styrcpy (shuts up purify) // // Revision 1.14 1996/09/10 15:06:28 jbk // Adjusted dbMapper.cc so gdd to string function work correctly // Added checks in gdd.h so that get(pointer) functions work with scalars // // Revision 1.13 1996/08/23 20:29:35 jbk // completed fixes for the aitString and fixed string management // // Revision 1.12 1996/08/22 21:05:43 jbk // More fixes to make strings and fixed string work better. // // Revision 1.11 1996/08/14 12:30:12 jbk // fixes for converting aitString to aitInt8* and back // fixes for managing the units field for the dbr types // // Revision 1.10 1996/08/13 15:07:45 jbk // changes for better string manipulation and fixes for the units field // // Revision 1.9 1996/08/06 19:14:10 jbk // Fixes to the string class. // Changes units field to a aitString instead of aitInt8. // // Revision 1.8 1996/07/26 02:23:15 jbk // Fixed the spelling error with Scalar. // // Revision 1.7 1996/07/24 22:48:06 jhill // fixed gnu warning int=>size_t // // Revision 1.6 1996/07/23 17:13:30 jbk // various fixes - dbmapper incorrectly worked with enum types // // Revision 1.5 1996/07/01 19:59:12 jhill // fixed case where gdd was mapped to a string without cvrt // // Revision 1.4 1996/06/26 21:00:06 jbk // Fixed up code in aitHelpers, removed unused variables in others // Fixed potential problem in gddAppTable.cc with the map functions // // Revision 1.3 1996/06/26 02:42:05 jbk // more correction to the aitString processing - testing menus // // Revision 1.2 1996/06/25 19:18:12 jbk // moved from extensions to base - fixed trouble in dbMapper.cc // // Revision 1.1 1996/06/25 19:11:34 jbk // new in EPICS base // // // *Revision 1.5 1996/06/25 18:59:00 jbk // *more fixes for the aitString management functions and mapping menus // *Revision 1.4 1996/06/24 03:15:30 jbk // *name changes and fixes for aitString and fixed string functions // *Revision 1.3 1996/06/17 15:24:08 jbk // *many mods, string class corrections. // *gdd operator= protection. // *dbMapper uses aitString array for menus now // *Revision 1.2 1996/06/13 21:31:54 jbk // *Various fixes and correction - including ref_cnt change to unsigned short // *Revision 1.1 1996/05/31 13:15:23 jbk // *add new stuff #define DB_MAPPER_SOURCE 1 #include #define epicsExportSharedSymbols #include "gddApps.h" #include "gddAppTable.h" #include "dbMapper.h" // #include "templates/dbMapperTempl.h" // hardcoded in same order as aitConvert.h // no way to detect a string type!!!!!!! // // C++ will not make a const decl external linkage unless // we explicitly specify extern // epicsShareDef extern const chtype gddAitToDbr[] = { DBR_STRING, DBR_CHAR, DBR_CHAR, DBR_SHORT, DBR_SHORT, DBR_ENUM, DBR_LONG, DBR_LONG, DBR_FLOAT, DBR_DOUBLE, DBR_STRING, DBR_STRING }; /* * application type ("app" field) is initialized * at run tim using the "app_name" field. */ epicsShareDef gddDbrToAitTable gddDbrToAit[] = { // normal { aitEnumFixedString, 0, "value" }, { aitEnumInt16, 0, "value" }, { aitEnumFloat32, 0, "value" }, { aitEnumEnum16, 0, "value" }, { aitEnumInt8, 0, "value" }, { aitEnumInt32, 0, "value" }, { aitEnumFloat64, 0, "value" }, // STS { aitEnumFixedString, 0, "value" }, { aitEnumInt16, 0, "value" }, { aitEnumFloat32, 0, "value" }, { aitEnumEnum16, 0, "value" }, { aitEnumInt8, 0, "value" }, { aitEnumInt32, 0, "value" }, { aitEnumFloat64, 0, "value" }, // TIME { aitEnumFixedString, 0, "value" }, { aitEnumInt16, 0, "value" }, { aitEnumFloat32, 0, "value" }, { aitEnumEnum16, 0, "value" }, { aitEnumInt8, 0, "value" }, { aitEnumInt32, 0, "value" }, { aitEnumFloat64, 0, "value" }, // Graphic { aitEnumFixedString, 0, "value" }, { aitEnumInt16, 0, "dbr_gr_short" }, { aitEnumFloat32, 0, "dbr_gr_float" }, { aitEnumEnum16, 0, "dbr_gr_enum" }, { aitEnumInt8, 0, "dbr_gr_char" }, { aitEnumInt32, 0, "dbr_gr_long" }, { aitEnumFloat64, 0, "dbr_gr_double" }, // control { aitEnumFixedString, 0, "value" }, { aitEnumInt16, 0, "dbr_ctrl_short" }, { aitEnumFloat32, 0, "dbr_ctrl_float" }, { aitEnumEnum16, 0, "dbr_ctrl_enum" }, { aitEnumInt8, 0, "dbr_ctrl_char" }, { aitEnumInt32, 0, "dbr_ctrl_long" }, { aitEnumFloat64, 0, "dbr_ctrl_double" } }; static gddApplicationTypeTable* type_table = NULL; static aitDataFormat local_data_format=aitLocalDataFormat; // I generated a container for each of the important DBR types. This // includes all the control and graphic structures. The others are // not needed become you can get time stamp and status in each gdd. // Currently the containers are build here with c++ code. // string type needs to be written special and not use template // maybe create a template for the string type // the problem is that the value of a string structure is an array, // not just a single element static gdd* mapStringToGdd(void* v,aitIndex count) { aitFixedString* db = (aitFixedString*)v; aitEnum to_type = gddDbrToAit[DBR_STRING].type; aitUint16 to_app = gddDbrToAit[DBR_STRING].app; gdd* dd; if(count<=1) { dd=new gddScalar(to_app,to_type); dd->put(*db); } else { dd=new gddAtomic(to_app,to_type,1,count); dd->putRef(db); } return dd; } static int mapGddToString(void* vd, aitIndex count, const gdd& dd) { aitFixedString* db = (aitFixedString*)vd; aitIndex sz = dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count<=sz) { if(local_data_format==aitLocalDataFormat) { if((aitFixedString*)v!=db) { status = aitConvert(aitEnumFixedString,db,dd.primitiveType(),v,count); } else { status = sz*sizeof(aitFixedString); } } else { status = aitConvertToNet(aitEnumFixedString,db,dd.primitiveType(),v,count); } } else { status = -1; } return status; } static gdd* mapShortToGdd(void* v,aitIndex count) { dbr_short_t* sv = (dbr_short_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_SHORT].app, gddDbrToAit[DBR_SHORT].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_SHORT].app); *dd=*sv; } return dd; } static int mapGddToShort(void* vd, aitIndex count, const gdd &dd) { dbr_short_t* sv = (dbr_short_t*)vd; aitIndex sz = dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if (local_data_format==aitLocalDataFormat) { if((dbr_short_t*)v!=sv) { status = aitConvert(aitEnumInt16,sv,dd.primitiveType(),v,sz); } else { status = sz*sizeof(dbr_short_t); } } else { status = aitConvertToNet(aitEnumInt16,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } static gdd* mapFloatToGdd(void* v,aitIndex count) { dbr_float_t* sv = (dbr_float_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_FLOAT].app, gddDbrToAit[DBR_FLOAT].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_FLOAT].app); *dd=*sv; } return dd; } static int mapGddToFloat(void* vd, aitIndex count, const gdd& dd) { dbr_float_t* sv = (dbr_float_t*)vd; aitIndex sz=dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if(local_data_format==aitLocalDataFormat) { if((dbr_float_t*)v!=sv) { status = aitConvert(aitEnumFloat32,sv,dd.primitiveType(),v,sz); } else { status = sz*sizeof(dbr_float_t); } } else { status = aitConvertToNet(aitEnumFloat32,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } static gdd* mapEnumToGdd(void* v,aitIndex count) { dbr_enum_t* sv = (dbr_enum_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_ENUM].app, gddDbrToAit[DBR_ENUM].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_ENUM].app); *dd=*sv; } return dd; } static int mapGddToEnum(void* vd, aitIndex count, const gdd& dd) { dbr_enum_t* sv = (dbr_enum_t*)vd; aitIndex sz=dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if(local_data_format==aitLocalDataFormat) { if((dbr_enum_t*)v!=sv) { status = aitConvert(aitEnumEnum16,sv,dd.primitiveType(),v,sz); } else { status = sizeof(dbr_enum_t)*count; } } else { status = aitConvertToNet(aitEnumEnum16,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } static gdd* mapCharToGdd(void* v,aitIndex count) { dbr_char_t* sv = (dbr_char_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_CHAR].app, gddDbrToAit[DBR_CHAR].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_CHAR].app); *dd=*sv; } return dd; } static int mapGddToChar(void* vd, aitIndex count, const gdd& dd) { dbr_char_t* sv = (dbr_char_t*)vd; aitIndex sz=dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if (local_data_format==aitLocalDataFormat) { if((dbr_char_t*)v!=sv) { status = aitConvert(aitEnumInt8,sv,dd.primitiveType(),v,sz); } else { status = sz*sizeof(dbr_char_t); } } else { status = aitConvertToNet(aitEnumInt8,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } static gdd* mapLongToGdd(void* v,aitIndex count) { dbr_long_t* sv = (dbr_long_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_LONG].app, gddDbrToAit[DBR_LONG].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_LONG].app); *dd=*sv; } return dd; } static int mapGddToLong(void* vd, aitIndex count, const gdd& dd) { dbr_long_t* sv = (dbr_long_t*)vd; aitIndex sz=dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if (local_data_format==aitLocalDataFormat) { if ((dbr_long_t*)v!=sv) { status = aitConvert(aitEnumInt32,sv,dd.primitiveType(),v,sz); } else { status = count*sizeof(dbr_long_t); } } else { status = aitConvertToNet(aitEnumInt32,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } static gdd* mapDoubleToGdd(void* v,aitIndex count) { dbr_double_t* sv = (dbr_double_t*)v; gdd* dd; if(count>1) { dd=new gddAtomic(gddDbrToAit[DBR_DOUBLE].app, gddDbrToAit[DBR_DOUBLE].type,1,count); dd->putRef(sv); } else { dd=new gddScalar(gddDbrToAit[DBR_DOUBLE].app); *dd=*sv; } return dd; } static int mapGddToDouble(void* vd, aitIndex count, const gdd& dd) { dbr_double_t* sv = (dbr_double_t*)vd; aitIndex sz=dd.getDataSizeElements(); void* v=dd.dataVoid(); int status; if (count==sz) { if (local_data_format==aitLocalDataFormat) { if ((dbr_double_t*)v!=sv) { status = aitConvert(aitEnumFloat64,sv,dd.primitiveType(),v,sz); } else { status = count*sizeof(dbr_double_t); } } else { status = aitConvertToNet(aitEnumFloat64,sv,dd.primitiveType(),v,sz); } } else { status = -1; } return status; } // ******************************************************************** // sts structure mappings // ******************************************************************** static gdd* mapStsStringToGdd(void* v,aitIndex count) { dbr_sts_string* db = (dbr_sts_string*)v; aitFixedString* dbv = (aitFixedString*)db->value; aitEnum to_type = gddDbrToAit[DBR_STS_STRING].type; aitUint16 to_app = gddDbrToAit[DBR_STS_STRING].app; gdd* dd; if(count<=1) { dd=new gddScalar(to_app,to_type); dd->put(*dbv); } else { dd=new gddAtomic(to_app,to_type,1,count); dd->putRef(dbv); } dd->setStatSevr(db->status,db->severity); return dd; } static int mapStsGddToString(void* v, aitIndex count, const gdd& dd) { dbr_sts_string* db = (dbr_sts_string*)v; aitFixedString* dbv = (aitFixedString*)db->value; dd.getStatSevr(db->status,db->severity); return mapGddToString(dbv, count, dd); } static gdd* mapStsShortToGdd(void* v,aitIndex count) { dbr_sts_short* dbv = (dbr_sts_short*)v; gdd* dd=mapShortToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToShort(void* v, aitIndex count, const gdd& dd) { dbr_sts_short* dbv = (dbr_sts_short*)v; dd.getStatSevr(dbv->status,dbv->severity); return mapGddToShort(&dbv->value, count, dd); } static gdd* mapStsFloatToGdd(void* v,aitIndex count) { dbr_sts_float* dbv = (dbr_sts_float*)v; gdd* dd=mapFloatToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToFloat(void* v, aitIndex count, const gdd& dd) { dbr_sts_float* dbv = (dbr_sts_float*)v; dd.getStatSevr(dbv->status,dbv->severity); return mapGddToFloat(&dbv->value,count,dd); } static gdd* mapStsEnumToGdd(void* v,aitIndex count) { dbr_sts_enum* dbv = (dbr_sts_enum*)v; gdd* dd=mapEnumToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToEnum(void* v, aitIndex count, const gdd& dd) { dbr_sts_enum* dbv = (dbr_sts_enum*)v; dd.getStatSevr(dbv->status,dbv->severity); return mapGddToEnum(&dbv->value,count,dd); } static gdd* mapStsCharToGdd(void* v,aitIndex count) { dbr_sts_char* dbv = (dbr_sts_char*)v; gdd* dd=mapCharToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToChar(void* v, aitIndex count, const gdd& dd) { dbr_sts_char* dbv = (dbr_sts_char*)v; dd.getStatSevr(dbv->status,dbv->severity); dbv->RISC_pad = '\0'; // shut up purify return mapGddToChar(&dbv->value,count,dd); } static gdd* mapStsLongToGdd(void* v,aitIndex count) { dbr_sts_long* dbv = (dbr_sts_long*)v; gdd* dd=mapLongToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToLong(void* v, aitIndex count, const gdd& dd) { dbr_sts_long* dbv = (dbr_sts_long*)v; dd.getStatSevr(dbv->status,dbv->severity); return mapGddToLong(&dbv->value,count,dd); } static gdd* mapStsDoubleToGdd(void* v,aitIndex count) { dbr_sts_double* dbv = (dbr_sts_double*)v; gdd* dd=mapDoubleToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); return dd; } static int mapStsGddToDouble(void* v, aitIndex count, const gdd& dd) { dbr_sts_double* dbv = (dbr_sts_double*)v; dd.getStatSevr(dbv->status,dbv->severity); dbv->RISC_pad = 0; // shut up purify return mapGddToDouble(&dbv->value,count,dd); } // ******************************************************************** // time structure mappings // ******************************************************************** static gdd* mapTimeStringToGdd(void* v,aitIndex count) { dbr_time_string* db = (dbr_time_string*)v; aitFixedString* dbv = (aitFixedString*)db->value; aitEnum to_type = gddDbrToAit[DBR_TIME_STRING].type; aitUint16 to_app = gddDbrToAit[DBR_TIME_STRING].app; gdd* dd; if(count<=1) { dd=new gddScalar(to_app,to_type); dd->put(*dbv); } else { dd=new gddAtomic(to_app,to_type,1,count); dd->putRef(dbv); } dd->setStatSevr(db->status,db->severity); dd->setTimeStamp((aitTimeStamp*)&db->stamp); return dd; } static int mapTimeGddToString(void* v, aitIndex count, const gdd& dd) { dbr_time_string* db = (dbr_time_string*)v; aitFixedString* dbv = (aitFixedString*)db->value; dd.getStatSevr(db->status,db->severity); dd.getTimeStamp((aitTimeStamp*)&db->stamp); return mapGddToString(dbv, count, dd); } static gdd* mapTimeShortToGdd(void* v,aitIndex count) { dbr_time_short* dbv = (dbr_time_short*)v; gdd* dd=mapShortToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToShort(void* v, aitIndex count, const gdd& dd) { dbr_time_short* dbv = (dbr_time_short*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); dbv->RISC_pad = 0; // shut up purify return mapGddToShort(&dbv->value,count,dd); } static gdd* mapTimeFloatToGdd(void* v,aitIndex count) { dbr_time_float* dbv = (dbr_time_float*)v; gdd* dd=mapFloatToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToFloat(void* v, aitIndex count, const gdd& dd) { dbr_time_float* dbv = (dbr_time_float*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); return mapGddToFloat(&dbv->value,count,dd); } static gdd* mapTimeEnumToGdd(void* v,aitIndex count) { dbr_time_enum* dbv = (dbr_time_enum*)v; gdd* dd=mapEnumToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToEnum(void* v, aitIndex count, const gdd& dd) { dbr_time_enum* dbv = (dbr_time_enum*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); dbv->RISC_pad = 0; // shut up purify return mapGddToEnum(&dbv->value,count,dd); } static gdd* mapTimeCharToGdd(void* v,aitIndex count) { dbr_time_char* dbv = (dbr_time_char*)v; gdd* dd=mapCharToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToChar(void* v, aitIndex count, const gdd& dd) { dbr_time_char* dbv = (dbr_time_char*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); dbv->RISC_pad0 = 0; // shut up purify dbv->RISC_pad1 = '\0'; // shut up purify return mapGddToChar(&dbv->value,count,dd); } static gdd* mapTimeLongToGdd(void* v,aitIndex count) { dbr_time_long* dbv = (dbr_time_long*)v; gdd* dd=mapLongToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToLong(void* v, aitIndex count, const gdd& dd) { dbr_time_long* dbv = (dbr_time_long*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); return mapGddToLong(&dbv->value,count,dd); } static gdd* mapTimeDoubleToGdd(void* v,aitIndex count) { dbr_time_double* dbv = (dbr_time_double*)v; gdd* dd=mapDoubleToGdd(&dbv->value,count); dd->setStatSevr(dbv->status,dbv->severity); dd->setTimeStamp((aitTimeStamp*)&dbv->stamp); return dd; } static int mapTimeGddToDouble(void* v, aitIndex count, const gdd& dd) { dbr_time_double* dbv = (dbr_time_double*)v; dd.getStatSevr(dbv->status,dbv->severity); dd.getTimeStamp((aitTimeStamp*)&dbv->stamp); dbv->RISC_pad = 0; // shut up purify return mapGddToDouble(&dbv->value,count,dd); } // ******************************************************************** // graphic structure mappings // ******************************************************************** // -------------map the short structures---------------- static gdd* mapGraphicShortToGdd(void* v, aitIndex count) { // must be a container dbr_gr_short* db = (dbr_gr_short*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_SHORT].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_short_value]; aitString* str=NULL; dd[gddAppTypeIndex_dbr_gr_short_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_gr_short_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_gr_short_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_gr_short_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_gr_short_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_gr_short_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_gr_short_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt16,1,&count); else vdd.setPrimType(aitEnumInt16); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static gdd* mapControlShortToGdd(void* v, aitIndex count) { // must be a container dbr_ctrl_short* db = (dbr_ctrl_short*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_SHORT].app); gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_short_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_ctrl_short_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_ctrl_short_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_short_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_short_controlLow]=db->lower_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_short_controlHigh]=db->upper_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_short_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_short_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_short_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_ctrl_short_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt16,1,&count); else vdd.setPrimType(aitEnumInt16); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static int mapGraphicGddToShort(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_gr_short* db = (dbr_gr_short*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_short_value]; dd[gddAppTypeIndex_dbr_gr_short_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_gr_short_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_gr_short_graphicHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_gr_short_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_gr_short_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_gr_short_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_gr_short_alarmHighWarning]; vdd.getStatSevr(db->status,db->severity); return mapGddToShort(&db->value,count,vdd); } static int mapControlGddToShort(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_ctrl_short* db = (dbr_ctrl_short*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_short_value]; dd[gddAppTypeIndex_dbr_ctrl_short_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_short_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_short_graphicHigh]; db->lower_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_short_controlLow]; db->upper_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_short_controlHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_short_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_short_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_short_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_short_alarmHighWarning]; vdd.getStatSevr(db->status,db->severity); return mapGddToShort(&db->value,count,vdd); } // -------------map the float structures---------------- static gdd* mapGraphicFloatToGdd(void* v, aitIndex count) { // must be a container dbr_gr_float* db = (dbr_gr_float*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_FLOAT].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_float_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_gr_float_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_gr_float_precision]=db->precision; dd[gddAppTypeIndex_dbr_gr_float_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_gr_float_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_gr_float_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_gr_float_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_gr_float_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_gr_float_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumFloat32,1,&count); else vdd.setPrimType(aitEnumFloat32); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static gdd* mapControlFloatToGdd(void* v, aitIndex count) { // must be a container dbr_ctrl_float* db = (dbr_ctrl_float*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_FLOAT].app); gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_float_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_ctrl_float_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_ctrl_float_precision]=db->precision; dd[gddAppTypeIndex_dbr_ctrl_float_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_float_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_float_controlLow]=db->lower_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_float_controlHigh]=db->upper_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_float_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_float_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_float_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_ctrl_float_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumFloat32,1,&count); else vdd.setPrimType(aitEnumFloat32); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static int mapGraphicGddToFloat(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_gr_float* db = (dbr_gr_float*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_float_value]; dd[gddAppTypeIndex_dbr_gr_float_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->precision=dd[gddAppTypeIndex_dbr_gr_float_precision]; db->lower_disp_limit=dd[gddAppTypeIndex_dbr_gr_float_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_gr_float_graphicHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_gr_float_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_gr_float_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_gr_float_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_gr_float_alarmHighWarning]; db->RISC_pad0 = 0; // shut up purify vdd.getStatSevr(db->status,db->severity); return mapGddToFloat(&db->value,count,vdd); } static int mapControlGddToFloat(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_ctrl_float* db = (dbr_ctrl_float*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_float_value]; dd[gddAppTypeIndex_dbr_ctrl_float_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->precision=dd[gddAppTypeIndex_dbr_ctrl_float_precision]; db->lower_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_float_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_float_graphicHigh]; db->lower_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_float_controlLow]; db->upper_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_float_controlHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_float_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_float_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_float_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_float_alarmHighWarning]; db->RISC_pad = 0; // shut up purify vdd.getStatSevr(db->status,db->severity); return mapGddToFloat(&db->value,count,vdd); } // -------------map the enum structures---------------- static gdd* mapGraphicEnumToGdd(void* v, aitIndex /*count*/) { dbr_gr_enum* db = (dbr_gr_enum*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_ENUM].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_enum_value]; gdd& menu = dd[gddAppTypeIndex_dbr_gr_enum_enums]; aitFixedString* str = menu; //aitFixedString* f = (aitFixedString*)db->strs; aitIndex sz,i; // int i; // old way using aitString menu // for(i=0;ino_str;i++) str[i]=((const char*)&(db->strs[i][0])); if(menu.dataPointer()==NULL || !menu.isAtomic()) { // need to copy the menu chunk from dbr to aitFixedString chunk menu.setDimension(1); sz=db->no_str; str=new aitFixedString[db->no_str]; menu.putRef(str,new gddDestructor); } else { if((sz=menu.getDataSizeElements())>(aitIndex)db->no_str) sz=db->no_str; } for (i=0;istrs[i][0]), minl); memset (&str[i].fixed_string[minl], '\0', sizeof(aitFixedString)-minl); } menu.setBound(0,0,sz); // should always be a scaler if(vdd.dimension()) vdd.clear(); vdd=db->value; vdd.setStatSevr(db->status,db->severity); return dd; } static gdd* mapControlEnumToGdd(void* v, aitIndex /*count*/) { dbr_ctrl_enum* db = (dbr_ctrl_enum*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_ENUM].app); gdd& menu = dd[gddAppTypeIndex_dbr_ctrl_enum_enums]; gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_enum_value]; aitFixedString* str = menu; //aitFixedString* f = (aitFixedString*)db->strs; aitIndex sz,i; // int i; // old way using aitString menu // for(i=0;ino_str;i++) str[i]=((const char*)&(db->strs[i][0])); if(menu.dataPointer()==NULL || !menu.isAtomic()) { // need to copy the menu chunk from dbr to aitFixedString chunk menu.setDimension(1); sz=db->no_str; str=new aitFixedString[db->no_str]; menu.putRef(str,new gddDestructor); } else { if((sz=menu.getDataSizeElements())>(aitIndex)db->no_str) sz=db->no_str; } for (i=0;istrs[i][0]), sizeof(aitFixedString)); str[i].fixed_string[sizeof(aitFixedString)-1u] = '\0'; } menu.setBound(0,0,sz); // should always be a scaler if(vdd.dimension()) vdd.clear(); vdd=db->value; vdd.setStatSevr(db->status,db->severity); return dd; } static int mapGraphicGddToEnum(void* v, aitIndex count, const gdd& dd) { dbr_gr_enum* db = (dbr_gr_enum*)v; const gdd& menu = dd[gddAppTypeIndex_dbr_gr_enum_enums]; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_enum_value]; const aitFixedString* str = menu; aitFixedString* f = (aitFixedString*)db->strs; int i; vdd.getStatSevr(db->status,db->severity); db->no_str=menu.getDataSizeElements(); if(str && str!=f) { for(i=0;ino_str;i++) { strncpy(&(db->strs[i][0]),str[i].fixed_string, MAX_ENUM_STRING_SIZE); db->strs[i][MAX_ENUM_STRING_SIZE-1u] = '\0'; } } return mapGddToEnum(&db->value, count, vdd); } static int mapControlGddToEnum(void* v, aitIndex count, const gdd& dd) { dbr_ctrl_enum* db = (dbr_ctrl_enum*)v; const gdd& menu = dd[gddAppTypeIndex_dbr_ctrl_enum_enums]; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_enum_value]; const aitFixedString* str = menu; aitFixedString* f = (aitFixedString*)db->strs; int i; vdd.getStatSevr(db->status,db->severity); db->no_str=menu.getDataSizeElements(); if(str && str!=f) { for(i=0;ino_str;i++) { strncpy(&(db->strs[i][0]),str[i].fixed_string, sizeof(aitFixedString)); db->strs[i][sizeof(aitFixedString)-1u] = '\0'; } } return mapGddToEnum(&db->value, count, vdd); } // -------------map the char structures---------------- static gdd* mapGraphicCharToGdd(void* v, aitIndex count) { // must be a container dbr_gr_char* db = (dbr_gr_char*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_CHAR].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_char_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_gr_char_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_gr_char_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_gr_char_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_gr_char_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_gr_char_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_gr_char_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_gr_char_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt8,1,&count); else vdd.setPrimType(aitEnumInt8); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static gdd* mapControlCharToGdd(void* v, aitIndex count) { // must be a container dbr_ctrl_char* db = (dbr_ctrl_char*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_CHAR].app); gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_char_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_ctrl_char_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_ctrl_char_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_char_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_char_controlLow]=db->lower_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_char_controlHigh]=db->upper_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_char_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_char_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_char_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_ctrl_char_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt8,1,&count); else vdd.setPrimType(aitEnumInt8); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static int mapGraphicGddToChar(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_gr_char* db = (dbr_gr_char*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_char_value]; dd[gddAppTypeIndex_dbr_gr_char_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_gr_char_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_gr_char_graphicHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_gr_char_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_gr_char_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_gr_char_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_gr_char_alarmHighWarning]; db->RISC_pad = 0; vdd.getStatSevr(db->status,db->severity); return mapGddToChar(&db->value,count,vdd); } static int mapControlGddToChar(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_ctrl_char* db = (dbr_ctrl_char*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_char_value]; dd[gddAppTypeIndex_dbr_ctrl_char_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_char_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_char_graphicHigh]; db->lower_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_char_controlLow]; db->upper_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_char_controlHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_char_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_char_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_char_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_char_alarmHighWarning]; db->RISC_pad = '\0'; // shut up purify vdd.getStatSevr(db->status,db->severity); return mapGddToChar(&db->value,count,vdd); } // -------------map the long structures---------------- static gdd* mapGraphicLongToGdd(void* v, aitIndex count) { // must be a container dbr_gr_long* db = (dbr_gr_long*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_LONG].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_long_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_gr_long_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_gr_long_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_gr_long_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_gr_long_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_gr_long_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_gr_long_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_gr_long_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt32,1,&count); else vdd.setPrimType(aitEnumInt32); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static gdd* mapControlLongToGdd(void* v, aitIndex count) { // must be a container dbr_ctrl_long* db = (dbr_ctrl_long*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_LONG].app); gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_long_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_ctrl_long_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_ctrl_long_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_long_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_long_controlLow]=db->lower_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_long_controlHigh]=db->upper_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_long_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_long_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_long_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_ctrl_long_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumInt32,1,&count); else vdd.setPrimType(aitEnumInt32); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static int mapGraphicGddToLong(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_gr_long* db = (dbr_gr_long*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_long_value]; dd[gddAppTypeIndex_dbr_gr_long_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_gr_long_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_gr_long_graphicHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_gr_long_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_gr_long_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_gr_long_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_gr_long_alarmHighWarning]; vdd.getStatSevr(db->status,db->severity); return mapGddToLong(&db->value,count,vdd); } static int mapControlGddToLong(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_ctrl_long* db = (dbr_ctrl_long*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_long_value]; dd[gddAppTypeIndex_dbr_ctrl_long_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->lower_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_long_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_long_graphicHigh]; db->lower_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_long_controlLow]; db->upper_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_long_controlHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_long_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_long_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_long_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_long_alarmHighWarning]; vdd.getStatSevr(db->status,db->severity); return mapGddToLong(&db->value,count,vdd); } // -------------map the double structures---------------- static gdd* mapGraphicDoubleToGdd(void* v, aitIndex count) { // must be a container dbr_gr_double* db = (dbr_gr_double*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_GR_DOUBLE].app); gdd& vdd = dd[gddAppTypeIndex_dbr_gr_double_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_gr_double_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_gr_double_precision]=db->precision; dd[gddAppTypeIndex_dbr_gr_double_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_gr_double_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_gr_double_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_gr_double_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_gr_double_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_gr_double_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumFloat64,1,&count); else vdd.setPrimType(aitEnumFloat64); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static gdd* mapControlDoubleToGdd(void* v, aitIndex count) { // must be a container dbr_ctrl_double* db = (dbr_ctrl_double*)v; gdd* dd = type_table->getDD(gddDbrToAit[DBR_CTRL_DOUBLE].app); gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_double_value]; aitString* str = NULL; dd[gddAppTypeIndex_dbr_ctrl_double_units].getRef(str); str->copy(db->units); dd[gddAppTypeIndex_dbr_ctrl_double_precision]=db->precision; dd[gddAppTypeIndex_dbr_ctrl_double_graphicLow]=db->lower_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_double_graphicHigh]=db->upper_disp_limit; dd[gddAppTypeIndex_dbr_ctrl_double_controlLow]=db->lower_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_double_controlHigh]=db->upper_ctrl_limit; dd[gddAppTypeIndex_dbr_ctrl_double_alarmLow]=db->lower_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_double_alarmHigh]=db->upper_alarm_limit; dd[gddAppTypeIndex_dbr_ctrl_double_alarmLowWarning]=db->lower_warning_limit; dd[gddAppTypeIndex_dbr_ctrl_double_alarmHighWarning]=db->upper_warning_limit; vdd.setStatSevr(db->status,db->severity); if(count==1) { if(vdd.dimension()) vdd.clear(); vdd=db->value; } else { if(vdd.dimension()!=1) vdd.reset(aitEnumFloat64,1,&count); else vdd.setPrimType(aitEnumFloat64); vdd.setBound(0,0,count); // // joh - looks like a dangling ref to the input dbr type here // with no destructor // vdd.putRef(&db->value); } return dd; } static int mapGraphicGddToDouble(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_gr_double* db = (dbr_gr_double*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_gr_double_value]; dd[gddAppTypeIndex_dbr_gr_double_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->precision=dd[gddAppTypeIndex_dbr_gr_double_precision]; db->lower_disp_limit=dd[gddAppTypeIndex_dbr_gr_double_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_gr_double_graphicHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_gr_double_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_gr_double_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_gr_double_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_gr_double_alarmHighWarning]; db->RISC_pad0 = 0; // shut up purify vdd.getStatSevr(db->status,db->severity); return mapGddToDouble(&db->value,count,vdd); } static int mapControlGddToDouble(void* v, aitIndex count, const gdd& dd) { aitString* str; dbr_ctrl_double* db = (dbr_ctrl_double*)v; const gdd& vdd = dd[gddAppTypeIndex_dbr_ctrl_double_value]; dd[gddAppTypeIndex_dbr_ctrl_double_units].getRef(str); if(str->string()) { strncpy(db->units,str->string(), sizeof(db->units)); db->units[sizeof(db->units)-1u] = '\0'; } db->precision=dd[gddAppTypeIndex_dbr_ctrl_double_precision]; db->lower_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_double_graphicLow]; db->upper_disp_limit=dd[gddAppTypeIndex_dbr_ctrl_double_graphicHigh]; db->lower_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_double_controlLow]; db->upper_ctrl_limit=dd[gddAppTypeIndex_dbr_ctrl_double_controlHigh]; db->lower_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_double_alarmLow]; db->upper_alarm_limit=dd[gddAppTypeIndex_dbr_ctrl_double_alarmHigh]; db->lower_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_double_alarmLowWarning]; db->upper_warning_limit=dd[gddAppTypeIndex_dbr_ctrl_double_alarmHighWarning]; db->RISC_pad0 = '\0'; // shut up purify vdd.getStatSevr(db->status,db->severity); return mapGddToDouble(&db->value,count,vdd); } // ----------------must run this to use mapping functions-------------- epicsShareFunc void gddMakeMapDBR(gddApplicationTypeTable& tt) { gddMakeMapDBR(&tt); } epicsShareFunc void gddMakeMapDBR(gddApplicationTypeTable* tt) { type_table=tt; size_t i; // Storing the DBRxxx type code in the app table will not work // for most of the types. This is because many share the same // app type "value", this includes the normal, sts, and time structures for(i=0;igetApplicationType(gddDbrToAit[i].app_name); tt->storeValue(gddDbrToAit[i].app,i); } } // An array of one function per DBR structure is provided here so conversions // can take place quickly by knowing the DBR enumerated type. // // C++ will not make a const decl external linkage unless // we explicitly specify extern // epicsShareDef extern const gddDbrMapFuncTable gddMapDbr[] = { { mapStringToGdd, mapGddToString }, // DBR_STRING { mapShortToGdd, mapGddToShort }, // DBR_SHORT { mapFloatToGdd, mapGddToFloat }, // DBR_FLOAT { mapEnumToGdd, mapGddToEnum }, // DBR_ENUM { mapCharToGdd, mapGddToChar }, // DBR_CHAR { mapLongToGdd, mapGddToLong }, // DBR_LONG { mapDoubleToGdd, mapGddToDouble }, // DBR_DOUBLE { mapStsStringToGdd, mapStsGddToString }, // DBR_STS_STRING { mapStsShortToGdd, mapStsGddToShort }, // DBR_STS_SHORT { mapStsFloatToGdd, mapStsGddToFloat }, // DBR_STS_FLOAT { mapStsEnumToGdd, mapStsGddToEnum }, // DBR_STS_ENUM { mapStsCharToGdd, mapStsGddToChar }, // DBR_STS_CHAR { mapStsLongToGdd, mapStsGddToLong }, // DBR_STS_LONG { mapStsDoubleToGdd, mapStsGddToDouble }, // DBR_STS_DOUBLE { mapTimeStringToGdd, mapTimeGddToString }, // DBR_TIME_STRING { mapTimeShortToGdd, mapTimeGddToShort }, // DBR_TIME_SHORT { mapTimeFloatToGdd, mapTimeGddToFloat }, // DBR_TIME_FLOAT { mapTimeEnumToGdd, mapTimeGddToEnum }, // DBR_TIME_ENUM { mapTimeCharToGdd, mapTimeGddToChar }, // DBR_TIME_CHAR { mapTimeLongToGdd, mapTimeGddToLong }, // DBR_TIME_LONG { mapTimeDoubleToGdd, mapTimeGddToDouble }, // DBR_TIME_DOUBLE { mapStsStringToGdd, mapStsGddToString }, // DBR_GR_STRING { mapGraphicShortToGdd, mapGraphicGddToShort }, // DBR_GR_SHORT { mapGraphicFloatToGdd, mapGraphicGddToFloat }, // DBR_GR_FLOAT { mapGraphicEnumToGdd, mapGraphicGddToEnum }, // DBR_GR_ENUM { mapGraphicCharToGdd, mapGraphicGddToChar }, // DBR_GR_CHAR { mapGraphicLongToGdd, mapGraphicGddToLong }, // DBR_GR_LONG { mapGraphicDoubleToGdd,mapGraphicGddToDouble }, // DBR_GR_DOUBLE { mapStsStringToGdd, mapStsGddToString }, // DBR_CTRL_STRING { mapControlShortToGdd, mapControlGddToShort }, // DBR_CTRL_SHORT { mapControlFloatToGdd, mapControlGddToFloat }, // DBR_CTRL_FLOAT { mapControlEnumToGdd, mapControlGddToEnum }, // DBR_CTRL_ENUM { mapControlCharToGdd, mapControlGddToChar }, // DBR_CTRL_CHAR { mapControlLongToGdd, mapControlGddToLong }, // DBR_CTRL_LONG { mapControlDoubleToGdd,mapControlGddToDouble } // DBR_CTRL_DOUBLE };