ahdlcmicompile: Compiling ahdlcmi in /home/dadras/simulation/test/resistor2/maestro/results/maestro/ExplorerRun.0/sharedData/CDS/ahdl/input.ahdlSimDB/fab661f1fa96360ff38130bd9cccbf21.resistor1.ahdlcmi/Linux-64/ for Linux-64 with optimize using gcc on Mon Jun 28 14:52:10 EEST 2021 [5.0] ahdlcmicompile: Generating makefile PATH: /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/bin:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/bin/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/bin:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/bin:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/bin:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/bin/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/share/oa/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/mainwin540/mw/bin-amd64_linux_optimized:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/mainwin540/mw/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/bin:/opt/JDK18/bin:/eda/cadence/2017-18/RHELx86/INCISIVE_15.20.038/kits/VerificationKit/bin:/bin:/sbin:/usr/bin:/usr/sbin:/usr/local/bin:/cad/tt/lnx/bin:/cad/MATLAB/R2021a/bin:/cad/sigasi:/cad/ard/bin:/cad/argo/bin:/cad/bista:/cad/jsp:/cad/eagle/7.7.0/bin:/cad/bc:/eda/cadence/2017-18/RHELx86/INCISIVE_15.20.038/bin:/eda/cadence/2017-18/RHELx86/INCISIVE_15.20.038/tools/bin:/eda/cadence/2017-18/RHELx86/INCISIVE_15.20.038/tools/systemc/gcc/bin:/eda/cadence/2017-18/RHELx86/CONFRML_17.10.240/bin:/eda/cadence/2017-18/RHELx86/INNOVUS_17.11.000/bin:/eda/cadence/2017-18/RHELx86/GENUS_17.11.000/bin:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/dfII/bin:/eda/cadence/2017-18/RHELx86/EXT_17.12.000/bin:/eda/cadence/2017-18/RHELx86/ASSURA_04.15.111/tools/bin:/eda/cadence/2017-18/RHELx86/ASSURA_04.15.111/tools/assura/bin:/eda/cadence/2017-18/RHELx86/ASSURA_04.15.111/bin:/eda/cadence/2017-18/RHELx86/INDAGO_17.04.014/bin:/eda/cadence/2017-18/RHELx86/JASPER_2017.09.000/jasper_2017.09/bin:/eda/cadence/2017-18/RHELx86/JLS_17.11.000/bin:/eda/cadence/2017-18/RHELx86/LIBERATE_16.14.122/bin:/eda/cadence/2017-18/RHELx86/MDV_17.04.006/bin:/eda/cadence/2017-18/RHELx86/MODUS_17.10.000/bin:/eda/cadence/2017-18/RHELx86/MVS_17.13.000/bin:/eda/cadence/2017-18/RHELx86/PVS_16.11.000/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/dfII/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/pcb/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/fet/bin:/eda/cadence/2017-18/RHELx86/SIG_17.00.006/tools/bin:/eda/cadence/2017-18/RHELx86/SSV_17.11.000/bin:/eda/cadence/2017-18/RHELx86/STRATUS_17.13.100/bin:/eda/cadence/2017-18/RHELx86/VIPCAT_11.30.051/tools/bin:/cad/dk/c/tsmc/LP/bin LD_LIBRARY_PATH: /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/giganta/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/mdl/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/mmsim/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/tcltk-8.4.20/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/inca/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/dfII/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/lib/64bit:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/lib:/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/lib/64bit/SuSE/SLES11:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/lib:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/lib/SuSE/SLES12:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/share/oa/lib/linux_rhel50_gcc48x_64/opt:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/Qt/64bit/lib:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/dfII/lib/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/sev/lib/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/lib/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/hdf5/lib/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/lz4/lib/64bit:/eda/cadence/2017-18/RHELx86/INCISIVE_15.20.038/tools.lnx86/lib/64bit:/eda/cadence/2017-18/RHELx86/IC_6.1.7.715/tools/lib/64bit/SuSE/SLES12:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib/i386/server:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib/i386:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre64/lib/amd64/server:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/Qt/64bit/lib:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/mainwin540/mw/../misc/linux/gcc/fixed3/lib:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/bin:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/mainwin540/mw/lib-amd64_linux_optimized:/usr/dt/lib:/usr/openwin/lib:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/lib/64bit:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/dfII/lib/64bit:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib/i386/client:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib/i386/native_threads:/eda/cadence/2017-18/RHELx86/SPB_17.20.028/tools/jre/lib/i386:/usr/openwin/lib /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/bin/gnumake -j32 -f GNUmakefile Cleaning ./obj/optimize/5.0 rm -f -rf ./obj/optimize/5.0 Compiling C file resistor1.c (optimize) /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/cdsgcc/gcc/4.8/bin/gcc -march=k8 -ffast-math -fno-unsafe-math-optimizations -O3 -m64 -DSYSV -DSVR4 -D_REENTRANT -fPIC -DconfigSPECTRE -I. -I/eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include -c resistor1.c -o obj/optimize/5.0/resistor1.o || rm -f -f obj/optimize/5.0/resistor1.o resistor1.c: In function 'resistor1_pDC_Load': resistor1.c:979:966: warning: passing argument 1 of 'aslDevFillZeorDiagonalElemet' makes pointer from integer without a cast [enabled by default] aslDevSetAnalysisNameAndType( NULL, &(pfuncModeParam->analType) ); pfuncModeParam->pModelKnot_ = pModelKnot; if (aslDevAutomaticSourceRamping() && ((1.0 - aslDevSpectreSourceLevel(pfuncModeParam)) > machResolution)) pfuncModeParam->doSourceRamping_ = doSourceRamping = 1; pfuncModeParam->pStaticRHS_ = StaticRHS; pfuncModeParam->pStaticRHS_AbsSum_ = StaticRHS_AbsSum; pfuncModeParam->nAhdlWhatsNeeded_ = WhatsNeeded; pfuncModeParam->pFuncSolution_ = Solution; pfuncModeParam->nInDC_ = 1; pfuncModeParam->codeSection_ = 2; if (Time) { pfuncModeParam->analTime = Time->Real; anal_mode = 64 | 2; } else { pfuncModeParam->analTime = 0.0; anal_mode = 2; } while (pModelKnot) { pfuncModeParam->pModelKnot_ = pModelKnot; pInstKnot = devGetModelInstances(pModelKnot); while (pInstKnot) { pfuncModeParam->pInstKnot_ = pInstKnot; pInst = (resistor1_Inst *)devGetInstData(pInstKnot); pState = (resistor1_State *)devGetInstState(pInstKnot); pStencil = (struct resistor1StencilData *)devGetInstStencil(pInstKnot); pfuncModeParam->ahdlRestoreFail = pState->ahdlRestoreFail; pfuncModeParam->contrInfoPtr = pState->contrInfoPtr; pfuncModeParam->ahdlMemAllList = (void **)&(pState->pAllPtrLists_); pState->pSolution = Solution; msgReturnIfError(aslDevClearIterMemRefLists(pfuncModeParam)); if (doSourceRamping) { if (aslDevNeedsRHSInfo((char *)devGetInstSignals(pInstKnot), pState->rhs_values)) { Severity = resistor1_pGetRhsForSourceRamping(anal_mode, 15, pfuncModeParam); pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, Severity ); if (pfuncModeParam->nSeverity_ == msgFatal) return msgFatal; } } pfuncModeParam->nodeClaspReln = &(pState->nodeClaspReln); if (WhatsNeeded IS devDerivNeeded) pfuncModeParam->nAhdlFuncMode_ = 14; else pfuncModeParam->nAhdlFuncMode_ = 15; { char *instDataAddrList[] = {(char *)pInst, NULL}; char *stateDataAddrList[] = {(char *)pState, NULL}; pfuncModeParam->anal_mode = anal_mode; pfuncModeParam->instData = instDataAddrList; pfuncModeParam->stateData = stateDataAddrList; pfuncModeParam->stenData = (char *)devGetInstStencil(pfuncModeParam->pInstKnot_); pfuncModeParam->sigData = (char *)devGetInstSignals(pfuncModeParam->pInstKnot_); if ((WhatsNeeded IS devDynamicDerivNeeded) && !aslDevIsFSFlow()) Severity = resistor1_TranFuncDerLoad(pfuncModeParam); else if (WhatsNeeded IS devDerivNeeded) Severity = resistor1_DcFuncDerLoad(pfuncModeParam); else Severity = resistor1_DcFuncLoad(pfuncModeParam); } if (doSourceRamping) { aslDevHandleSourceRamping(pfuncModeParam, pState->rhs_values); } pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); if (pfuncModeParam->nSeverity_ >= msgAmputate) { return pfuncModeParam->nSeverity_; } aslDevFillZeorDiagonalElemet(pStencil->dignal_sten_addr_32, pStencil->dignal_sten_size_40, WhatsNeeded, pfuncModeParam); ^ In file included from resistor1.c:24:0: /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlDevLibGlobal.h:2513:37: note: expected 'void *' but argument is of type 'long int' ASL_FUNC_DECL_START extern void aslDevFillZeorDiagonalElemet( void *, int, unsigned int, struct ahdlFuncModeParam * ); ^ resistor1.c: In function 'resistor1_pCompare': resistor1.c:1018:1384: warning: assignment makes integer from pointer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ if ((pOldModelKnot == NULL) || (pNewModelKnot == NULL)) { struct resistor1InstData *oldInstData = NULL, *newInstData = NULL; oldInstData = (struct resistor1InstData* ) devGetInstData( pOldInstKnot ); newInstData = (struct resistor1InstData* ) devGetInstData( pNewInstKnot ); struct resistor1ModData *oldModData = NULL, *newModData = NULL; oldModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pOldInstKnot ) ); newModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pNewInstKnot ) ); memcpy( devGetInstSignals(pNewInstKnot), devGetInstSignals(pOldInstKnot), 24); struct resistor1StencilData *oldStenData = NULL, *newStenData = NULL; oldStenData = (struct resistor1StencilData* ) devGetInstStencil( pOldInstKnot ); newStenData = (struct resistor1StencilData* ) devGetInstStencil( pNewInstKnot ); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_addr_48, &newStenData->dignal_quartet_addr_48); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_size_56, &newStenData->dignal_quartet_size_56); aslDevSpReplaceMatrixTemp( Jacobian, &oldStenData->vccs_cntrl_0, &newStenData->vccs_cntrl_0); newStenData->dignal_sten_size_40 = oldStenData->dignal_sten_size_40; if ( newStenData->dignal_sten_size_40 > 0 ) { newStenData->dignal_sten_addr_32 = ( long * )calloc( newStenData->dignal_sten_size_40, sizeof(long) ); memcpy( newStenData->dignal_sten_addr_32 , oldStenData->dignal_sten_addr_32, sizeof(long)*newStenData->dignal_sten_size_40 ); } else newStenData->dignal_sten_addr_32 = NULL; return NO; } return NO;} ^ resistor1.c:1018:854: warning: passing argument 1 of 'memcpy' makes pointer from integer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ if ((pOldModelKnot == NULL) || (pNewModelKnot == NULL)) { struct resistor1InstData *oldInstData = NULL, *newInstData = NULL; oldInstData = (struct resistor1InstData* ) devGetInstData( pOldInstKnot ); newInstData = (struct resistor1InstData* ) devGetInstData( pNewInstKnot ); struct resistor1ModData *oldModData = NULL, *newModData = NULL; oldModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pOldInstKnot ) ); newModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pNewInstKnot ) ); memcpy( devGetInstSignals(pNewInstKnot), devGetInstSignals(pOldInstKnot), 24); struct resistor1StencilData *oldStenData = NULL, *newStenData = NULL; oldStenData = (struct resistor1StencilData* ) devGetInstStencil( pOldInstKnot ); newStenData = (struct resistor1StencilData* ) devGetInstStencil( pNewInstKnot ); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_addr_48, &newStenData->dignal_quartet_addr_48); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_size_56, &newStenData->dignal_quartet_size_56); aslDevSpReplaceMatrixTemp( Jacobian, &oldStenData->vccs_cntrl_0, &newStenData->vccs_cntrl_0); newStenData->dignal_sten_size_40 = oldStenData->dignal_sten_size_40; if ( newStenData->dignal_sten_size_40 > 0 ) { newStenData->dignal_sten_addr_32 = ( long * )calloc( newStenData->dignal_sten_size_40, sizeof(long) ); memcpy( newStenData->dignal_sten_addr_32 , oldStenData->dignal_sten_addr_32, sizeof(long)*newStenData->dignal_sten_size_40 ); } else newStenData->dignal_sten_addr_32 = NULL; return NO; } return NO;} ^ In file included from /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlPiCmi.h:5:0, from /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlDevLibGlobal.h:83, from resistor1.c:24: /usr/include/string.h:42:14: note: expected 'void * __restrict__' but argument is of type 'long int' extern void *memcpy (void *__restrict __dest, const void *__restrict __src, ^ resistor1.c:1018:854: warning: passing argument 2 of 'memcpy' makes pointer from integer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ if ((pOldModelKnot == NULL) || (pNewModelKnot == NULL)) { struct resistor1InstData *oldInstData = NULL, *newInstData = NULL; oldInstData = (struct resistor1InstData* ) devGetInstData( pOldInstKnot ); newInstData = (struct resistor1InstData* ) devGetInstData( pNewInstKnot ); struct resistor1ModData *oldModData = NULL, *newModData = NULL; oldModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pOldInstKnot ) ); newModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pNewInstKnot ) ); memcpy( devGetInstSignals(pNewInstKnot), devGetInstSignals(pOldInstKnot), 24); struct resistor1StencilData *oldStenData = NULL, *newStenData = NULL; oldStenData = (struct resistor1StencilData* ) devGetInstStencil( pOldInstKnot ); newStenData = (struct resistor1StencilData* ) devGetInstStencil( pNewInstKnot ); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_addr_48, &newStenData->dignal_quartet_addr_48); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_size_56, &newStenData->dignal_quartet_size_56); aslDevSpReplaceMatrixTemp( Jacobian, &oldStenData->vccs_cntrl_0, &newStenData->vccs_cntrl_0); newStenData->dignal_sten_size_40 = oldStenData->dignal_sten_size_40; if ( newStenData->dignal_sten_size_40 > 0 ) { newStenData->dignal_sten_addr_32 = ( long * )calloc( newStenData->dignal_sten_size_40, sizeof(long) ); memcpy( newStenData->dignal_sten_addr_32 , oldStenData->dignal_sten_addr_32, sizeof(long)*newStenData->dignal_sten_size_40 ); } else newStenData->dignal_sten_addr_32 = NULL; return NO; } return NO;} ^ In file included from /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlPiCmi.h:5:0, from /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlDevLibGlobal.h:83, from resistor1.c:24: /usr/include/string.h:42:14: note: expected 'const void * __restrict__' but argument is of type 'long int' extern void *memcpy (void *__restrict __dest, const void *__restrict __src, ^ resistor1.c:1018:1626: warning: assignment makes integer from pointer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ if ((pOldModelKnot == NULL) || (pNewModelKnot == NULL)) { struct resistor1InstData *oldInstData = NULL, *newInstData = NULL; oldInstData = (struct resistor1InstData* ) devGetInstData( pOldInstKnot ); newInstData = (struct resistor1InstData* ) devGetInstData( pNewInstKnot ); struct resistor1ModData *oldModData = NULL, *newModData = NULL; oldModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pOldInstKnot ) ); newModData = (struct resistor1ModData* ) devGetModelData( devGetInstModelKnot( pNewInstKnot ) ); memcpy( devGetInstSignals(pNewInstKnot), devGetInstSignals(pOldInstKnot), 24); struct resistor1StencilData *oldStenData = NULL, *newStenData = NULL; oldStenData = (struct resistor1StencilData* ) devGetInstStencil( pOldInstKnot ); newStenData = (struct resistor1StencilData* ) devGetInstStencil( pNewInstKnot ); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_addr_48, &newStenData->dignal_quartet_addr_48); spReplaceMatrixPointer( Jacobian, &oldStenData->dignal_quartet_size_56, &newStenData->dignal_quartet_size_56); aslDevSpReplaceMatrixTemp( Jacobian, &oldStenData->vccs_cntrl_0, &newStenData->vccs_cntrl_0); newStenData->dignal_sten_size_40 = oldStenData->dignal_sten_size_40; if ( newStenData->dignal_sten_size_40 > 0 ) { newStenData->dignal_sten_addr_32 = ( long * )calloc( newStenData->dignal_sten_size_40, sizeof(long) ); memcpy( newStenData->dignal_sten_addr_32 , oldStenData->dignal_sten_addr_32, sizeof(long)*newStenData->dignal_sten_size_40 ); } else newStenData->dignal_sten_addr_32 = NULL; return NO; } return NO;} ^ resistor1.c: In function 'resistor1_pGetMatrixPointers': resistor1.c:1024:2369: warning: assignment makes integer from pointer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ msgSeverity Severity = msgIgnore; extern int resistor1_GetMatrixPointers(struct ahdlFuncModeParam *); struct ahdlFuncModeParam funcModeParam; struct ahdlFuncModeParam *pfuncModeParam = &funcModeParam; memset( pfuncModeParam, 0, sizeof(struct ahdlFuncModeParam) ); pfuncModeParam->sim_lang = (enum SimLangType *)&(mod_sim_lang); pfuncModeParam->filename = resistor1_va_file; pfuncModeParam->fileDescOffset = 40; pfuncModeParam->numOfFileDescAllocated = 1; pfuncModeParam->is_bsource = 0; pfuncModeParam->isnoisy_given_addr = 0; pfuncModeParam->is_paramset = 0; pfuncModeParam->close_dynmic_param = 0; if (setjmp (pfuncModeParam->catchExecErr [0])) { if (pfuncModeParam->nSeverity_ >= msgAmputate) { aslDevDoFlushIOandStdoutBuffers(pfuncModeParam->nAhdlFuncMode_, pfuncModeParam); return pfuncModeParam->nSeverity_; } } resistor1_Inst *pInst = NULL; resistor1_State *pState = NULL; struct resistor1StencilData *pStencil = NULL; pfuncModeParam->Jacobian_ = Jacobian; while (pModelKnot != NULL) { devInstKnot *pInstKnot = devGetModelInstances(pModelKnot); while (pInstKnot != NULL) { pfuncModeParam->pInstKnot_ = pInstKnot; pInst = (resistor1_Inst *)devGetInstData(pInstKnot); pState = (resistor1_State *)devGetInstState(pInstKnot); pStencil = (struct resistor1StencilData *)devGetInstStencil(pInstKnot); if((void*)pStencil->dignal_sten_addr_32 != NULL) { aslDevFree((void*)pStencil->dignal_sten_addr_32); pStencil->dignal_sten_addr_32 = 0; pStencil->dignal_sten_size_40 = 0; } pfuncModeParam->diagElementArray = NULL; pfuncModeParam->diagElementCallocSize = 0; pfuncModeParam->diagElementRealSize = 0; pfuncModeParam->diagQuartetArray = NULL; pfuncModeParam->diagQuartetCallocSize = 0; pfuncModeParam->diagQuartetRealSize = 0; pfuncModeParam->nAhdlFuncMode_ = 4; { char *instDataAddrList[] = {(char *)pInst, NULL}; char *stateDataAddrList[] = {(char *)pState, NULL}; pfuncModeParam->anal_mode = 1; pfuncModeParam->instData = instDataAddrList; pfuncModeParam->stateData = stateDataAddrList; pfuncModeParam->stenData = (char *)devGetInstStencil(pfuncModeParam->pInstKnot_); pfuncModeParam->sigData = (char *)devGetInstSignals(pfuncModeParam->pInstKnot_); Severity = resistor1_GetMatrixPointers(pfuncModeParam); } pStencil->dignal_sten_addr_32 = pfuncModeParam->diagElementArray; pStencil->dignal_sten_size_40 = pfuncModeParam->diagElementRealSize; pStencil->dignal_quartet_addr_48 = pfuncModeParam->diagQuartetArray; pStencil->dignal_quartet_size_56 = pfuncModeParam->diagQuartetRealSize; pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); pInstKnot = devGetInstNext(pInstKnot); } pModelKnot = devGetModelNext(pModelKnot); } Severity = spErrorMessage( Jacobian ); pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); return pfuncModeParam->nSeverity_;} ^ resistor1.c:1024:2511: warning: assignment makes integer from pointer without a cast [enabled by default] struct devMiscInfo *pMiscInfo, GenericPtr Jacobian){ msgSeverity Severity = msgIgnore; extern int resistor1_GetMatrixPointers(struct ahdlFuncModeParam *); struct ahdlFuncModeParam funcModeParam; struct ahdlFuncModeParam *pfuncModeParam = &funcModeParam; memset( pfuncModeParam, 0, sizeof(struct ahdlFuncModeParam) ); pfuncModeParam->sim_lang = (enum SimLangType *)&(mod_sim_lang); pfuncModeParam->filename = resistor1_va_file; pfuncModeParam->fileDescOffset = 40; pfuncModeParam->numOfFileDescAllocated = 1; pfuncModeParam->is_bsource = 0; pfuncModeParam->isnoisy_given_addr = 0; pfuncModeParam->is_paramset = 0; pfuncModeParam->close_dynmic_param = 0; if (setjmp (pfuncModeParam->catchExecErr [0])) { if (pfuncModeParam->nSeverity_ >= msgAmputate) { aslDevDoFlushIOandStdoutBuffers(pfuncModeParam->nAhdlFuncMode_, pfuncModeParam); return pfuncModeParam->nSeverity_; } } resistor1_Inst *pInst = NULL; resistor1_State *pState = NULL; struct resistor1StencilData *pStencil = NULL; pfuncModeParam->Jacobian_ = Jacobian; while (pModelKnot != NULL) { devInstKnot *pInstKnot = devGetModelInstances(pModelKnot); while (pInstKnot != NULL) { pfuncModeParam->pInstKnot_ = pInstKnot; pInst = (resistor1_Inst *)devGetInstData(pInstKnot); pState = (resistor1_State *)devGetInstState(pInstKnot); pStencil = (struct resistor1StencilData *)devGetInstStencil(pInstKnot); if((void*)pStencil->dignal_sten_addr_32 != NULL) { aslDevFree((void*)pStencil->dignal_sten_addr_32); pStencil->dignal_sten_addr_32 = 0; pStencil->dignal_sten_size_40 = 0; } pfuncModeParam->diagElementArray = NULL; pfuncModeParam->diagElementCallocSize = 0; pfuncModeParam->diagElementRealSize = 0; pfuncModeParam->diagQuartetArray = NULL; pfuncModeParam->diagQuartetCallocSize = 0; pfuncModeParam->diagQuartetRealSize = 0; pfuncModeParam->nAhdlFuncMode_ = 4; { char *instDataAddrList[] = {(char *)pInst, NULL}; char *stateDataAddrList[] = {(char *)pState, NULL}; pfuncModeParam->anal_mode = 1; pfuncModeParam->instData = instDataAddrList; pfuncModeParam->stateData = stateDataAddrList; pfuncModeParam->stenData = (char *)devGetInstStencil(pfuncModeParam->pInstKnot_); pfuncModeParam->sigData = (char *)devGetInstSignals(pfuncModeParam->pInstKnot_); Severity = resistor1_GetMatrixPointers(pfuncModeParam); } pStencil->dignal_sten_addr_32 = pfuncModeParam->diagElementArray; pStencil->dignal_sten_size_40 = pfuncModeParam->diagElementRealSize; pStencil->dignal_quartet_addr_48 = pfuncModeParam->diagQuartetArray; pStencil->dignal_quartet_size_56 = pfuncModeParam->diagQuartetRealSize; pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); pInstKnot = devGetInstNext(pInstKnot); } pModelKnot = devGetModelNext(pModelKnot); } Severity = spErrorMessage( Jacobian ); pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); return pfuncModeParam->nSeverity_;} ^ resistor1.c: In function 'resistor1_pAnalTranLoad': resistor1.c:1056:1903: warning: passing argument 1 of 'aslDevFillZeorDiagonalElemet' makes pointer from integer without a cast [enabled by default] register RealVector PrevIterate, BOOLEAN *Limited, struct ahdlFuncModeParam *pfuncModeParam, int anal_mode){ resistor1_Inst *pInst = NULL; resistor1_State *pState = NULL; struct resistor1StencilData *pStencil = NULL; msgSeverity Severity = msgIgnore, retSeverity = msgIgnore; extern int resistor1_TranFuncLoad(struct ahdlFuncModeParam *); extern int resistor1_TranFuncDerLoad(struct ahdlFuncModeParam *); if (setjmp (pfuncModeParam->catchExecErr [0])) { if (pfuncModeParam->nSeverity_ >= msgAmputate) { aslDevDoFlushIOandStdoutBuffers(pfuncModeParam->nAhdlFuncMode_, pfuncModeParam); return pfuncModeParam->nSeverity_; } } int doSourceRamping = 0; aslDevSetAnalysisNameAndType( NULL, &(pfuncModeParam->analType) ); pfuncModeParam->pStaticRHS_ = StaticRHS; pfuncModeParam->pStaticRHS_AbsSum_ = StaticRHS_AbsSum; pfuncModeParam->pAhdlDynamicRHS_ = DynamicRHS; pfuncModeParam->pAhdlDynamicRHS_AbsSum_ = DynamicRHS_AbsSum; pfuncModeParam->nAhdlWhatsNeeded_ = WhatsNeeded; pfuncModeParam->dSpectre_anal_freq_ = devGetOmega() / TWO_PI; pfuncModeParam->dSpectre_anal_freq_omega_ = devGetOmega(); pfuncModeParam->nSeverity_ = msgIgnore; pfuncModeParam->pFuncSolution_ = Solution; if (Time && !pfuncModeParam->nInPseudoTran_ && !aslDevHasRestartRequest()) { pfuncModeParam->analTime = Time->Real; } else { pfuncModeParam->analTime = 0.0; } pfuncModeParam->codeSection_ = 2; pfuncModeParam->pModelKnot_ = pModelKnot; if (aslDevAutomaticSourceRamping() && ((1.0 - aslDevSpectreSourceLevel(pfuncModeParam)) > machResolution)) pfuncModeParam->doSourceRamping_ = doSourceRamping = 1; while (pModelKnot) { pfuncModeParam->pModelKnot_ = pModelKnot; devInstKnot *pInstKnot = devGetModelInstances(pModelKnot); while (pInstKnot) { pfuncModeParam->pInstKnot_ = pInstKnot; pInst = (resistor1_Inst *)devGetInstData(pInstKnot); pState = (resistor1_State *)devGetInstState(pInstKnot); pStencil = (struct resistor1StencilData *)devGetInstStencil(pInstKnot); pfuncModeParam->ahdlRestoreFail = pState->ahdlRestoreFail; pfuncModeParam->contrInfoPtr = pState->contrInfoPtr; pfuncModeParam->ahdlMemAllList = (void **)&(pState->pAllPtrLists_); pState->pSolution = Solution; msgReturnIfError(aslDevClearIterMemRefLists(pfuncModeParam)); pfuncModeParam->nodeClaspReln = &(pState->nodeClaspReln); if (doSourceRamping) { if (aslDevNeedsRHSInfo((char *)devGetInstSignals(pInstKnot), pState->rhs_values)) { Severity = resistor1_pGetRhsForSourceRamping(anal_mode, pfuncModeParam->nInPseudoTran_ ? 29 : 17, pfuncModeParam); pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, Severity ); if (pfuncModeParam->nSeverity_ == msgFatal) return msgFatal; } } if (WhatsNeeded IS devDerivNeeded) pfuncModeParam->nAhdlFuncMode_ = pfuncModeParam->nInPseudoTran_ ? 28 : 16; else pfuncModeParam->nAhdlFuncMode_ = pfuncModeParam->nInPseudoTran_ ? 29 : 17; { char *instDataAddrList[] = {(char *)pInst, NULL}; char *stateDataAddrList[] = {(char *)pState, NULL}; pfuncModeParam->anal_mode = anal_mode; pfuncModeParam->instData = instDataAddrList; pfuncModeParam->stateData = stateDataAddrList; pfuncModeParam->stenData = (char *)devGetInstStencil(pfuncModeParam->pInstKnot_); pfuncModeParam->sigData = (char *)devGetInstSignals(pfuncModeParam->pInstKnot_); if (WhatsNeeded IS devDerivNeeded) Severity = resistor1_TranFuncDerLoad(pfuncModeParam); else Severity = resistor1_TranFuncLoad(pfuncModeParam); } if (doSourceRamping) { aslDevHandleSourceRamping(pfuncModeParam, pState->rhs_values); } Severity = MAX(retSeverity, Severity); if (Severity >= msgAmputate) return Severity; pfuncModeParam->nSeverity_ = MAX( pfuncModeParam->nSeverity_, (int)Severity ); if(anal_mode != 8) aslDevFillZeorDiagonalElemet(pStencil->dignal_sten_addr_32, pStencil->dignal_sten_size_40, WhatsNeeded, pfuncModeParam); ^ In file included from resistor1.c:24:0: /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlDevLibGlobal.h:2513:37: note: expected 'void *' but argument is of type 'long int' ASL_FUNC_DECL_START extern void aslDevFillZeorDiagonalElemet( void *, int, unsigned int, struct ahdlFuncModeParam * ); ^ resistor1.c:1057:4: warning: passing argument 1 of 'aslDevFillZeroDiagQuartet' makes pointer from integer without a cast [enabled by default] if ( !pfuncModeParam->nInPseudoTran_ ) { aslDevFillZeroDiagQuartet(pStencil->dignal_quartet_addr_48, pStencil->dignal_quartet_size_56, WhatsNeeded, pfuncModeParam); ^ In file included from resistor1.c:24:0: /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/spectre/ahdlcmi/include/ahdlDevLibGlobal.h:2515:37: note: expected 'void *' but argument is of type 'long int' ASL_FUNC_DECL_START extern void aslDevFillZeroDiagQuartet( void *, int, unsigned int, struct ahdlFuncModeParam * ); ^ rm -f -rf resistor1.c /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/cdsgcc/gcc/4.8/bin/gcc -shared -O3 -m64 -fPIC -o obj/optimize/5.0/libahdlcmi_resistor1.so ./obj/optimize/5.0/resistor1.o -Wl,-rpath,/usr/lib -Wl,-rpath,/lib -s ld: /usr/lib/../lib64/crti.o: unrecognized relocation (0x2a) in section `.init' ld: final link failed: Bad value collect2: error: ld returned 1 exit status gnumake: *** [obj/optimize/5.0/libahdlcmi_resistor1.so] Error 1 /eda/cadence/2017-18/RHELx86/SPECTRE_16.10.614/tools.lnx86/cdsgcc/gcc/4.8/bin/gcc -shared -O3 -m64 -fPIC -o obj/optimize/5.0/libahdlcmi_resistor1.so ./obj/optimize/5.0/resistor1.o -Wl,-rpath,/usr/lib -Wl,-rpath,/lib -s ld: /usr/lib/../lib64/crti.o: unrecognized relocation (0x2a) in section `.init' ld: final link failed: Bad value collect2: error: ld returned 1 exit status gnumake: *** [obj/optimize/5.0/libahdlcmi_resistor1.so] Error 1