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example added (adder_mos.cir) to demonstrate 'save none'

pre-master-46
h_vogt 9 years ago
committed by Holger Vogt
parent
a393c47ec8
commit
81bd6b7d17
1 changed files with 135 additions and 31 deletions
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  1. 162
      visualc/ng_shared_xspice_v/src/main_xspice.c

162
visualc/ng_shared_xspice_v/src/main_xspice.c
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@ -56,6 +56,8 @@ bool not_yet = true;
bool will_unload = false; bool will_unload = false;
bool error_ngspice = false; bool error_ngspice = false;
static bool firsttime = TRUE;
int cieq(register char *p, register char *s); int cieq(register char *p, register char *s);
int ciprefix(const char *p, const char *s); int ciprefix(const char *p, const char *s);
@ -177,14 +179,16 @@ int main()
/* general callback initialization */ /* general callback initialization */
ret = ((int * (*)(SendChar*, SendStat*, ControlledExit*, SendData*, SendInitData*, ret = ((int * (*)(SendChar*, SendStat*, ControlledExit*, SendData*, SendInitData*,
BGThreadRunning*, void*)) ngSpice_Init_handle)(ng_getchar, ng_getstat, BGThreadRunning*, void*)) ngSpice_Init_handle)(ng_getchar, ng_getstat,
ng_exit, NULL, ng_initdata, ng_thread_runs, NULL);
ng_exit, ng_data, ng_initdata, ng_thread_runs, NULL);
/* event data initialization */ /* event data initialization */
ret = ((int * (*)(SendEvtData*, SendInitEvtData*, void*)) ngSpice_Init_Evt_handle)(ng_getevtdata, ret = ((int * (*)(SendEvtData*, SendInitEvtData*, void*)) ngSpice_Init_Evt_handle)(ng_getevtdata,
ng_getinitevtdata, NULL); ng_getinitevtdata, NULL);
// goto test2;
testnumber = 1; testnumber = 1;
printf("\n** Test no. %d with sourcing input file **\n\n", testnumber);
printf("\n** Test no. %d with sourcing digital input file **\n\n", testnumber);
error_ngspice = false; error_ngspice = false;
will_unload = false; will_unload = false;
@ -198,9 +202,10 @@ int main()
ret = ((int * (*)(char*)) ngSpice_Command_handle)("source ../examples/counter-test.cir"); ret = ((int * (*)(char*)) ngSpice_Command_handle)("source ../examples/counter-test.cir");
// ret = ((int * (*)(char*)) ngSpice_Command_handle)("source adder_mos.cir"); // ret = ((int * (*)(char*)) ngSpice_Command_handle)("source adder_mos.cir");
#endif #endif
/* reset firsttime for ng_data() */
firsttime = TRUE;
ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_run"); ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_run");
printf("We are back again\n");
printf("Background thread started\n");
/* wait to catch error signal, if available */ /* wait to catch error signal, if available */
#if defined(__MINGW32__) || defined(_MSC_VER) #if defined(__MINGW32__) || defined(_MSC_VER)
@ -323,21 +328,113 @@ endsim:
((pevt_shared_data(*)(char*)) ngSpice_EVT_handle)(NULL); ((pevt_shared_data(*)(char*)) ngSpice_EVT_handle)(NULL);
} }
else else
printf("Not enough nodes for selection\n");
printf("Not enough nodes for selection\n\n");
test2:
testnumber = 2;
printf("\n** Test no. %d with sourcing analog input file **\n\n", testnumber);
error_ngspice = false;
will_unload = false;
#if defined(__CYGWIN__)
ret = ((int * (*)(char*)) ngSpice_Command_handle)("source /cygdrive/d/Spice_general/ngspice_sh/examples/shared-ngspice/counter-test.cir");
#elif __MINGW32__
ret = ((int * (*)(char*)) ngSpice_Command_handle)("source D:\\Spice_general\\ngspice_sh\\examples\\shared-ngspice\\counter-test.cir");
#elif _MSC_VER
ret = ((int * (*)(char*)) ngSpice_Command_handle)("source ./examples/adder_mos.cir");
#else
ret = ((int * (*)(char*)) ngSpice_Command_handle)("source ../examples/counter-test.cir");
// ret = ((int * (*)(char*)) ngSpice_Command_handle)("source adder_mos.cir");
#endif
/* test the new feature */
ret = ((int * (*)(char*)) ngSpice_Command_handle)("save none");
/* reset firsttime for ng_data() */
firsttime = TRUE;
ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_run");
printf("Background thread started\n");
/* wait to catch error signal, if available */
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep(100);
#else
usleep(100000);
#endif
/* Upon error: unload ngspice and skip rest of test code */
if (error_ngspice) {
printf("Error detected, let's unload\n");
ret = ((int * (*)(char*)) ngSpice_Command_handle)("quit"); ret = ((int * (*)(char*)) ngSpice_Command_handle)("quit");
#if 0
/* unload now */
dlclose(ngdllhandle); dlclose(ngdllhandle);
printf("ngspice.dll unloaded\n\n");
ngdllhandle = NULL; ngdllhandle = NULL;
printf("Unloaded\n\n");
return 0;
}
/* simulate for 500 milli seconds or until simulation has finished */
for (i = 0; i < 5; i++) {
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep(100);
#else
usleep(100000);
#endif
/* we are faster than anticipated */
if (no_bg)
goto endsim;
}
ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_halt");
for (i = 3; i > 0; i--) {
printf("Pause for %d seconds\n", i);
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep(1000);
#else
usleep(1000000);
#endif
}
ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_resume");
/* wait for 1s while simulation continues */
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep(1000);
#else
usleep(1000000);
#endif #endif
if (will_unload) {
printf("Unload now\n");
/* read current plot while simulation continues */
curplot = ((char * (*)()) ngSpice_CurPlot_handle)();
printf("\nCurrent plot is %s\n\n", curplot);
vecarray = ((char ** (*)(char*)) ngSpice_AllVecs_handle)(curplot);
/* get length of first vector */
if (vecarray) {
char plotvec[256];
pvector_info myvec;
int veclength;
vecname = vecarray[0];
sprintf(plotvec, "%s.%s", curplot, vecname);
myvec = ((pvector_info(*)(char*)) ngSpice_GVI_handle)(plotvec);
veclength = myvec->v_length;
printf("\nActual length of vector %s is %d\n\n", plotvec, veclength);
}
/* wait until simulation finishes */
for (;;) {
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep(100);
#else
usleep(100000);
#endif
if (no_bg)
break;
}
ret = ((int * (*)(char*)) ngSpice_Command_handle)("quit");
/* unload now */
dlclose(ngdllhandle); dlclose(ngdllhandle);
ngdllhandle = NULL; ngdllhandle = NULL;
printf("Unloaded\n\n"); printf("Unloaded\n\n");
}
/* wait before closing the command window */
puts("\nPress <enter> to quit:");
getchar();
return 0; return 0;
} }
@ -407,24 +504,31 @@ ng_exit(int exitstatus, bool immediate, bool quitexit, int ident, void* userdata
int int
ng_data(pvecvaluesall vdata, int numvecs, int ident, void* userdata) ng_data(pvecvaluesall vdata, int numvecs, int ident, void* userdata)
{ {
int *ret;
v2dat = vdata->vecsa[vecgetnumber]->creal;
if (!has_break && (v2dat > 0.5)) {
/* using signal SIGTERM by sending to main thread, alterp() then is run from the main thread,
(not on Windows though!) */
#ifndef _MSC_VER
if (testnumber == 4)
pthread_kill(mainthread, SIGTERM);
#endif
has_break = true;
/* leave bg thread for a while to allow halting it from main */
#if defined(__MINGW32__) || defined(_MSC_VER)
Sleep (100);
#else
usleep (100000);
#endif
// ret = ((int * (*)(char*)) ngSpice_Command_handle)("bg_halt");
double tscale;
static double olddat = 0.0;
static int i, j;
if (firsttime) {
for (i = 0; i < numvecs; i++) {
/* We have a look at vector V(6) from adder_mos.cir.
Get the index i */
if (cieq(vdata->vecsa[i]->name, "V(6)"))
break;
}
firsttime = FALSE;
/* get the scale vector index j */
for (j = 0; j < numvecs; j++) {
if (vdata->vecsa[j]->is_scale)
break;
}
}
if (testnumber == 2) {
v2dat = vdata->vecsa[i]->creal;
/* print output value only if it has changed */
if (olddat != v2dat) {
tscale = vdata->vecsa[j]->creal;
printf("real value of vector %s is %e at %e\n", vdata->vecsa[i]->name, v2dat, tscale);
}
olddat = v2dat;
} }
return 0; return 0;
} }

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