#include #define SCPI_ARGS_N_C 2 #define SCPI_ARGS_N_Q 0 #include "app/scpi/scpi_handler.h" #include "app/control_table/control_table.h" // ----- // @argTypesCommand // Declare argument parser entities for command form // Supported arguments: 1=NUMERIC DECLARE_SCPI_ARGS_C( eScpiArg_Numeric, eScpiArg_Numeric ); // ----- // @argTypesQuery // Declare argument parser entities for query form // Supported arguments: 0 DECLARE_SCPI_ARGS_Q(); DECLARE_ARGUMENT_NUMERIC_VALUES_I32(AllowedValues_PortNumber, 0, 16); const uint8_t fsqvbl_CommandHandlerPortSet = 1; // CTRL:PORT const uint8_t fsqvbl_CommandHandlerMeasStart = 2; // MEAS:START const uint8_t fsqvbl_CommandHandlerMeasStop = 3; // MEAS:STOP const uint8_t fsqvbl_CommandHandlerMeasCont = 4; // MEAS:CONTinue const uint8_t fsqvbl_CommandHandlerMeasMode = 5; // MEAS:MODE #include "app/scpi/commandHandlers/power_switch.h" #include "app/nfm/nfm_base.h" // Refer to: // [1] SCPI Specification, revision 1999.0 // "Standard Commands for Programmable Instruments (SCPI), VERSION 1999.0, May 1999" // [2] Gpib Programming Tutorial, (http://g2pc1.bu.edu/~qzpeng/gpib/manual/GpibProgTut.pdf) // Electronics Group (http://www.few.vu.nl/~elec), 11 January 2000 Electronics Group // [3] IEEE 488.2 Standard, revision IEEE Std 488.2-1987 (1992) // "IEEE Standard Codes, Formats, Protocols, and Common Commands for Use With IEEE Std 488.1-1987, IEEE // ================================================================================= // @fsqvbl_CommandHandlerMEASnSWITCH_group // State's virtual table static void fsqe_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx ); static void fsql_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx ); static const struct fFSeqEntry_t * fsqf_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx, const struct fFSeqEntry_t * * pDeferredNext ); const fFSeqVTable_t fsqvbl_CommandHandlerCtrl_group = { .f = fsqf_CommandHandlerCtrl_Switch_Group, .enter = fsqe_CommandHandlerCtrl_Switch_Group, .leave = fsql_CommandHandlerCtrl_Switch_Group }; static void fsqe_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx ) { sProcessProgramDataCommonContext_t * common_ctx = ctx; common_ctx->MeasAndSwitch.idx = 0; SCPI_PARSE_ARGUMENTS( common_ctx ); (void)common_ctx->argsParserStatus; // status is modified } static void fsql_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx ) { } static const struct fFSeqEntry_t * fsqf_CommandHandlerCtrl_Switch_Group( const struct fFSeqEntry_t * this, tFSeqCtx_t ctx, const struct fFSeqEntry_t * * pDeferredNext ) { const fFSeqEntry_t * nextstate = NULL; sProcessProgramDataCommonContext_t * common_ctx = ctx; sScpiParserContext_t * global_ctx = common_ctx->global_ctx; switch( common_ctx->event ) { case eProgramData_Event_Write: { if( eScpiStatus_success != common_ctx->argsParserStatus ) // check argument parser status { common_ctx->status = eProgramDataArgumentSyntax; // parameter syntax error, caller should generate error message } else if( ! common_ctx->isQuery ) { common_ctx->status = eProgramDataIllegalArgument; // forward set, illegal parameter value, caller should generate error message if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerPortSet ) { // Parse first argument const sNumericEntry_t * ne = SCPI_PROCESS_ARGUMENT_NUMERIC(common_ctx, &AllowedValues_PortNumber, 0); if( ScpiNumericSuccess != ne->error ) break; uint16_t port1 = ne->Value.demicalInteger; // Parse second argument ne = SCPI_PROCESS_ARGUMENT_NUMERIC(common_ctx, &AllowedValues_PortNumber, 1); if( ScpiNumericSuccess != ne->error ) break; uint16_t port2 = ne->Value.demicalInteger; if((port1 || port2) && (port1 == port2)) break; if( port1 > NFMClass->properties.allowedOutputPorts || port2 > NFMClass->properties.allowedOutputPorts) { common_ctx->status = eProgramDataRuntimeError; break; } if( !NFMClass->methods.portMethods.setPortState(eNFMPort_1, port1) || !NFMClass->methods.portMethods.setPortState(eNFMPort_2, port2) ) { common_ctx->status = eProgramDataRuntimeError; break; } sTableTablePoint_t portCommutation = { .port1 = NFMClass->methods.portMethods.getPortState(eNFMPort_1), .port2 = NFMClass->methods.portMethods.getPortState(eNFMPort_2) }; ControlHandle.PortSet(portCommutation); common_ctx->status = eProgramDataDone; } } else { common_ctx->status = eProgramDataNeedRead; // request processed, wait for reading... (void)nextstate; // stay in this state } } break; case eProgramData_Event_Read: { // @idx - current position of the source data to be outputed if( common_ctx->MeasAndSwitch.idx == 0 ) // first reading { size_t length = 0; if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerPortSet ) { sTableTablePoint_t portState = ControlHandle.PortRead(); NFMClass->methods.portMethods.setPortState(eNFMPort_1, portState.port1); NFMClass->methods.portMethods.setPortState(eNFMPort_2, portState.port2); length = _snprintf( common_ctx->tempBuffer, sizeof(common_ctx->tempBuffer), "%d, %d", portState.port1, portState.port2); } else if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerMeasStart ) { ControlHandle.Start_Meas(); length = _snprintf( common_ctx->tempBuffer, sizeof(common_ctx->tempBuffer), "%s", "OK\n"); } else if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerMeasStop ) { ControlHandle.Stop_Meas(); length = _snprintf( common_ctx->tempBuffer, sizeof(common_ctx->tempBuffer), "%s", "OK\n"); } else if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerMeasCont ) { ControlHandle.Continue_Meas(); length = _snprintf( common_ctx->tempBuffer, sizeof(common_ctx->tempBuffer), "%s", "OK\n"); } else if( common_ctx->handler_ctx == &fsqvbl_CommandHandlerMeasMode ) { uint8_t res = ControlHandle.Mode_Meas(); if(res != ERROR_CODE) { length = _snprintf( common_ctx->tempBuffer, sizeof(common_ctx->tempBuffer), "%s", res ? "TABLE\n" : "MANUAL\n"); } } if( length > 0 ) { // place null-terminator in the end of line common_ctx->tempBuffer[length] = '\0'; } else { fsq_RaiseError( SCPI_ERROR_INTERNAL_DEVICE, SCPI_ERROR_INTERNAL_DEVICE_MSG, global_ctx->sParser.xHandlerToken.shead, global_ctx->sParser.xHandlerToken.stail ); common_ctx->status = eProgramData_SpecificError; // specific error already generated break; } } // Since @done flag is set, this dispatcher shall not be called anymore. // Since this handler is implemented as a single-state automat, there no // ... other states to go to: (void)nextstate; // modify current postion index: SCPI_RESPONSE_HELPER( common_ctx, common_ctx->MeasAndSwitch.idx ); } break; } return nextstate; }