static unsigned long ExecIO_Write_From_Queue (
PLL pll) /* Pointer to file linked list item */
{
/* Local function variables */
char * Item; /* Item pulled from the queue */
long items;
/* process request */
if (ExecIO_Options.lRcdCnt == 0) {
return 0;
}
/* start at the proper place in the queue */
while (ExecIO_Options.lStartRcd > 1 && queued() > 0) {
Item = pull();
if (Item != NULL) {
RexxFreeMemory(Item);
}
ExecIO_Options.lStartRcd--;
}
if (ExecIO_Options.lRcdCnt == -1) {
/* process an "*" record count */
items = queued();
while (items > 0) {
Item = pull();
if (Item != NULL) {
fputs(Item, pll -> pFile);
fputs("\n", pll -> pFile);
RexxFreeMemory(Item);
}
else {
goto return_point;
}
items--;
}
}
else {
/* process a specific record count */
while (ExecIO_Options.lRcdCnt > 0) {
if (queued() == 0)
break;
Item = pull();
if (Item != NULL) {
fputs(Item, pll -> pFile);
fputs("\n", pll -> pFile);
RexxFreeMemory(Item);
}
else {
goto return_point;
}
ExecIO_Options.lRcdCnt--;
}
}
return_point:
fflush (pll -> pFile);
/* return with successful return code */
return 0;
}
static unsigned long ExecIO_Write_From_Stem (
PLL pll) /* Pointer to file linked list item */
{
/* Local function variables */
char * Stem; /* Stem variable name */
char * Index; /* Stem index value (string) */
RXSTRING rxVal; /* Rexx stem variable value */
int elements;
/* process request */
if (ExecIO_Options.lRcdCnt == 0)
return 0;
Stem = (char *)malloc(strlen(ExecIO_Options.aStem) + 33);
if (Stem == NULL) {
return 20;
}
strcpy(Stem, ExecIO_Options.aStem);
Index = Stem + strlen(Stem);
if (ExecIO_Options.lRcdCnt == -1) {
/* process an "*" record count */
// get the number of elements
sprintf(Index, "%u", 0);
FetchRexxVar(Stem, &rxVal);
elements = atoi(rxVal.strptr);
RexxFreeMemory(rxVal.strptr);
while (ExecIO_Options.lStartRcd <= elements) {
sprintf(Index, "%ld", ExecIO_Options.lStartRcd);
FetchRexxVar(Stem, &rxVal);
fputs(rxVal.strptr, pll -> pFile);
fputs("\n", pll -> pFile);
RexxFreeMemory(rxVal.strptr);
ExecIO_Options.lStartRcd++;
}
}
else {
/* process a specific record count */
while (ExecIO_Options.lStartRcd <= ExecIO_Options.lRcdCnt) {
sprintf(Index, "%ld", ExecIO_Options.lStartRcd);
FetchRexxVar(Stem, &rxVal);
fputs(rxVal.strptr, pll -> pFile);
fputs("\n", pll -> pFile);
RexxFreeMemory(rxVal.strptr);
ExecIO_Options.lStartRcd++;
}
}
fflush (pll -> pFile);
/* return with successful return code */
return 0;
}
RexxMethod0(RexxObjectPtr, rexx_linein_queue)
{
RexxReturnCode rc; /* pull return code */
RexxObjectPtr queue_name; /* current queue name */
RXSTRING buf;
/* get the queue name */
queue_name = context->GetObjectVariable("NAMED_QUEUE");
buf.strptr = NULL; /* ask for a returned buffer */
buf.strlength = 0;
// since we don't know how long we'll be waiting here, turn off the
// guard so we don't lock up other threads.
context->SetGuardOff();
/* pull a line */
rc = RexxPullFromQueue(context->ObjectToStringValue(queue_name), &buf, NULL, RXQUEUE_WAIT);
if (!rc) /* get a pulled line? */
{
RexxObjectPtr result = context->NewString(buf.strptr, buf.strlength);
if (buf.strptr != OREF_NULL)
{
RexxFreeMemory(buf.strptr);
}
return result;
}
return context->Nil(); /* give back a failure */
}
int SysCall main(int argc, char **argv)
{
char fn[2][BUFFERLEN];
int silent = 0;
int j = 0;
HINSTANCE hDll=NULL;
hDll = LoadLibrary(DLLNAME);
for (j=1; j<argc; j++)
{
if (((argv[j][0] == '/') || (argv[j][0] == '-'))
&& ((argv[j][1] == 's') || (argv[j][1] == 'S'))) silent = j;
}
if (!silent)
{
char *ptr = RexxGetVersionInformation();
if (ptr) {
printf(ptr, "Tokenizer");
printf("\n");
RexxFreeMemory(ptr);
}
}
/* check arguments: at least 1 argument, max. 2, /s must be last */
if ((argc < 2) || (argc > 4) || /* invalid no. of args */
(silent && (argc == 2)) || /* only /s */
(silent && (silent+1 != argc)) || /* /s not last arg */
(!silent && (argc == 4))) /* 3 args, no /s */
{
if (argc > 2) {
DisplayError(hDll, Error_REXXC_cmd_parm_incorrect);
}
DisplayError(hDll, Error_REXXC_wrongNrArg);
DisplayError(hDll, Error_REXXC_SynCheckInfo);
if (hDll) FreeLibrary(hDll);
exit(-1);
}
strcpy(fn[0], argv[1]);
if (argc >= 3) strcpy(fn[1], argv[2]);
if ( ((argc>3) || ((argc==3) && !silent)) &&
(strcmp(strupr(fn[0]), strupr(fn[1])) == 0))
{
DisplayError(hDll, Error_REXXC_outDifferent);
if (hDll) FreeLibrary(hDll);
exit(-2);
}
if (hDll) FreeLibrary(hDll);
if ((argc == 2) || ((argc==3) && silent) ) /* just doing a syntax check? */
/* go perform the translation */
return RexxTranslateProgram(argv[1], NULL, NULL);
else /* translate and save the output */
return RexxTranslateProgram(argv[1], argv[2], NULL);
}
unsigned long FetchRexxVar (
char * pszVar, /* Variable name */
PRXSTRING prxVar) /* REXX variable contents */
{
/* local function variables */
SHVBLOCK RxVarBlock;
unsigned long ulRetc;
char * pszTemp;
/* initialize the shared variable block */
RxVarBlock.shvnext = NULL;
RxVarBlock.shvname.strptr = pszVar;
RxVarBlock.shvname.strlength = strlen(pszVar);
RxVarBlock.shvnamelen = RxVarBlock.shvname.strlength;
RxVarBlock.shvvalue.strptr = NULL;
RxVarBlock.shvvalue.strlength = 0;
RxVarBlock.shvvaluelen = 0;
RxVarBlock.shvcode = RXSHV_SYFET;
RxVarBlock.shvret = RXSHV_OK;
/* fetch variable from pool */
ulRetc = RexxVariablePool(&RxVarBlock);
/* test return code */
if (ulRetc != RXSHV_OK && ulRetc != RXSHV_NEWV) {
prxVar -> strptr = NULL;
prxVar -> strlength = 0;
}
else {
/* allocate a new buffer for the Rexx variable pool value */
pszTemp = (char *) RexxAllocateMemory(RxVarBlock.shvvalue.strlength + 1);
if (pszTemp == NULL) {
/* no buffer available so return a NULL Rexx value */
prxVar -> strptr = NULL;
prxVar -> strlength = 0;
ulRetc = RXSHV_MEMFL;
}
else {
/* copy to new buffer and zero-terminate */
memmove(pszTemp, RxVarBlock.shvvalue.strptr,
RxVarBlock.shvvalue.strlength);
*(pszTemp + RxVarBlock.shvvalue.strlength) = '\0';
prxVar -> strptr = pszTemp;
prxVar -> strlength = RxVarBlock.shvvalue.strlength;
}
// free memory returned from RexxVariablePool API
RexxFreeMemory(RxVarBlock.shvvalue.strptr);
}
return ulRetc;
}
int SysCall main(int argc, char **argv)
{
int silent = 0;
int j = 0;
for (j = 1; j < argc; j++)
{
if (((argv[j][0] == '/') || (argv[j][0] == '-'))
&& ((argv[j][1] == 's') || (argv[j][1] == 'S'))) silent = j;
}
if (!silent)
{
char *ptr = RexxGetVersionInformation();
printf("%s\n", ptr);
RexxFreeMemory(ptr);
}
/* check arguments: at least 1 argument, max. 2, /s must be last */
if ((argc < 2) || (argc > 4) || /* invalid no. of args */
(silent && (argc == 2)) || /* only /s */
(silent && (silent+1 != argc)) || /* /s not last arg */
(!silent && (argc == 4))) /* 3 args, no /s */
{
if (argc > 2)
{
DisplayError(Error_REXXC_cmd_parm_incorrect);
}
DisplayError(Error_REXXC_wrongNrArg);
DisplayError(Error_REXXC_SynCheckInfo);
exit(-1);
}
if ( ((argc>3) || ((argc==3) && !silent)) &&
(stricmp(argv[1], argv[2]) == 0))
{
DisplayError(Error_REXXC_outDifferent);
exit(-2);
}
if ((argc == 2) || ((argc==3) && silent) )
{
/* go perform the translation */
return RexxTranslateProgram(argv[1], NULL, NULL);
}
else /* translate and save the output */
{
return RexxTranslateProgram(argv[1], argv[2], NULL);
}
}
RexxMethod0(RexxObjectPtr, rexx_pull_queue)
{
RXSTRING buf; /* pulled line buffer */
RexxReturnCode rc; /* pull return code */
/* get the queue name */
RexxObjectPtr queue_name = context->GetObjectVariable("NAMED_QUEUE");
buf.strptr = NULL; /* ask for a returned buffer */
buf.strlength = 0;
/* pull a line */
rc = RexxPullFromQueue(context->ObjectToStringValue(queue_name), &buf, NULL, RXQUEUE_NOWAIT);
if (!rc)
{ /* get a pulled line? */
RexxObjectPtr result = context->NewString(buf.strptr, buf.strlength);
if (buf.strptr != OREF_NULL)
{
RexxFreeMemory(buf.strptr);
}
return result;
}
return context->Nil(); /* give back a failure */
}
//
// MAIN program
//
int __cdecl main(int argc, char *argv[])
{
RXSYSEXIT exit_list[9]; /* Exit list array */
short rexxrc = 0; /* return code from rexx */
int rc; /* actually running program RC */
CONSTRXSTRING argument; /* rexxstart argument */
RXSTRING rxretbuf; // program return buffer
rc = 0; /* set default return */
/* just one argument is accepted by this program */
if ((argc < 2) || (argc > 3))
{
printf("Wrong arguments: REXXEXIT program [argument]\n");
exit(-1);
}
/*
* Convert the input array into a single string for the Object REXX
* argument string. Initialize the RXSTRING variable to point to this
* string. Keep the string null terminated so we can print it for debug.
* First argument is name of the REXX program
* Next argument(s) are parameters to be passed
*/
/* By setting the strlength of the output RXSTRING to zero, we */
/* force the interpreter to allocate memory and return it to us. */
/* We could provide a buffer for the interpreter to use instead. */
rxretbuf.strlength = 0L; /* initialize return to empty*/
if (argc == 3)
{
MAKERXSTRING(argument, argv[2], strlen(argv[2]));/* create input argument */
}
else
MAKERXSTRING(argument, "", 0);/* create blank argument */
// register IO exit
rc = RexxRegisterExitExe("MY_IOC", (REXXPFN)&MY_IOEXIT, NULL);
/* run this via RexxStart */
exit_list[0].sysexit_name = "MY_IOC";
exit_list[0].sysexit_code = RXSIO;
exit_list[1].sysexit_code = RXENDLST;
/* Here we call the interpreter. */
rc=REXXSTART(1, /* number of arguments */
&argument, /* array of arguments */
argv[1], /* name of REXX file */
NULL, /* No INSTORE used */
"CMD", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
exit_list, /* exits for this call */
&rexxrc, /* Rexx program output */
&rxretbuf ); /* Rexx program output */
/* free memory allocated for the return result */
if (rc==0)
{
RexxFreeMemory(rxretbuf.strptr);
}
RexxDeregisterExit("MY_IOC",NULL); // remove the exit in exe exit list
// return interpeter or rexx program return code
return rc ? rc : rexxrc;
}
int main(int argc, char **argv)
{
CONSTRXSTRING arg[4]; /* argument string for Rexx */
RXSTRING rexxretval; /* return value from Rexx */
RXSTRING instore[2]; /* in storage parms */
PFNREXXSTART FuncAddress;
void *pLibHandle = NULL; /* Library handle */
RexxReturnCode rc = 0; /* return code from Rexx */
short rexxrc = 0; /* return code from function */
const char *pszLibraryName = "librexx.so"; /* define the library name */
char returnBuffer[100];
char val;
const char *str1 = "Arg number one"; /* text to swap */
const char *str2 = "Arg number two"; /* text to swap */
const char *str3 = "Arg number three"; /* text to swap */
const char *str4 = "Arg number four"; /* text to swap */
const char *sync_tst = "call time 'Reset';" \
"object1 = .example~new;" \
"object2 = .example~new;" \
"object3 = .example~new;" \
"a.1 = object1~start('REPEAT', 4 , 'Object 1 running');" \
"say a.1~result;" \
"say 'The result method waits until the START message has completed:';" \
"a.2 = object2~start('REPEAT', 2, 'Object 2 running');" \
"a.3 = object3~start('REPEAT', 2, 'Object 3 running');" \
"say a.2~result;" \
"say a.3~result;" \
"say 'main ended';" \
"say 'Elapsed time: ' time('E');" \
"exit;" \
"::REQUIRES 'example.rex'";
if (!(pLibHandle = dlopen(pszLibraryName, RTLD_LAZY )))
{ /* Load and resolve symbols immediately */
fprintf(stderr, " *** Unable to load library %s !\nError message: %s\n",
pszLibraryName, dlerror());
return 99;
}
if(!(FuncAddress = (PFNREXXSTART) dlsym(pLibHandle, "RexxStart")))
{
rc = 1; /* could not resolve */
fprintf(stderr, " *** Unable to load function %s !\nError message: %s\n",
"RexxStart", dlerror());
return 99;
}
/* By setting the strlength of the Rexx output to zero, the */
/* interpreter allocates memory. */
/* We can provide a buffer for the interpreter to use instead. */
/* If the returned value does not fit into the buffer, */
/* Open Object Rexx creates a new one. */
system("clear");
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
printf("This is an easy sample of how to invoke the Rexx interpreter. \n");
printf("The Rexx commandfile which is started is named: startrx1.rex\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
/* This is the interpreter invocation. ------------------------------ */
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"startrx1.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
if (rexxretval.strptr != NULL)
{
RexxFreeMemory(rexxretval.strptr);
}
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("In this case a previously defined Resultstring is \n");
printf("delivered to Open Object Rexx, which is large enough to \n");
printf("hold the Return Value of the Rexx commandfile.\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = returnBuffer;
rexxretval.strlength = sizeof(returnBuffer);
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"startrx1.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("rexxretval.strptr contains %s\n", rexxretval.strptr);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
/* if Rexx needed to allocate a new buffer, release that one */
if (rexxretval.strptr != returnBuffer)
{
RexxFreeMemory(rexxretval.strptr);
}
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("In this case a previously defined Resultstring is \n");
printf("delivered to Open Object Rexx, which is too small to\n");
printf("hold the Return Value of the Rexx commandfile.\n");
printf("Rexx reallocates the buffer which needs to be freed.\n");
printf("in the calling program\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = (char *)returnBuffer;
rexxretval.strlength = 2;
printf("The length of the Resultstring is %d\n", rexxretval.strlength);
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"startrx1.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("The ResultString contains %s after call\n", rexxretval.strptr);
printf("The length is now %d\n", rexxretval.strlength);
/* if Rexx needed to allocate a new buffer, release that one */
if (rexxretval.strptr != returnBuffer)
{
RexxFreeMemory(rexxretval.strptr);
}
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
printf("This is a sample with 4 arguments delivered to \n");
printf("REXXSTART\n");
printf("The Rexx commandfile which is started is named: startrx2.rex\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
MAKERXSTRING(arg[0], str1, strlen(str1)); /* create input argument 1 */
MAKERXSTRING(arg[1], str2, strlen(str2)); /* create input argument 2 */
MAKERXSTRING(arg[2], str3, strlen(str3)); /* create input argument 3 */
MAKERXSTRING(arg[3], str4, strlen(str4)); /* create input argument 4 */
rc = (*FuncAddress)(
4, /* number of arguments */
arg, /* array of arguments */
"startrx2.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("This is a sample with 2 arguments delivered to \n");
printf("REXXSTART\n");
printf("The Rexx commandfile which is started is named: startrx2.rex\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
rc = (*FuncAddress)(
2, /* number of arguments */
arg, /* array of arguments */
"startrx2.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("This is a sample where the directory listing of the \n");
printf("actual directory is returned by the Rexx program. The \n");
printf("returned ResultString is displayed\n");
printf("The Rexx commandfile which is started is named: startrx3.rex\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"startrx3.rex", /* name of Rexx file */
NULL, /* No INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("This is a sample where the instore parameter [0] is \n");
printf("tested. Instore parameter [0] is loaded with \n");
printf("a small Open Object Rexx script showing the concurrency feature.\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
instore[0].strptr = (const char *)sync_tst;
instore[0].strlength = strlen(instore[0].strptr);
instore[1].strptr = NULL;
instore[1].strlength = 0;
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
NULL, /* no name for Rexx file */
instore, /* INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("Now instore[1] is loaded with the content of instore[0]. \n");
printf("It can be used on subsequent calls. instore[0] is set to NULL \n");
printf("Press Enter to continue\n");
scanf("%c", &val);
instore[0].strptr = NULL;
instore[0].strlength = 0;
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
NULL, /* no name for Rexx file */
instore, /* INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
free(instore[1].strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("This is a sample to show how to use the Rexx MacroSpace facility. \n");
printf("First of all load_macro.rex is called to load \n");
printf("the Rexx script macros.rex into Macrospace. The Macrospace- \n");
printf("name is upload.rex. \n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"load_macro.rex", /* name for Rexx macrospacefile*/
NULL, /* INSTORE not used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("Now the Open Object Rexx script macros.rex (named upload.rex) has been loaded\n");
printf("into Macrospace. It is now used in the name option of\n");
printf("the REXXSTART command. \n");
printf("It is very important that instore paramenter [0] and [1] are\n");
printf("initialized to NULL rsp. 0 and used as REXXSTART parameters\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rexxretval.strptr = NULL; /* initialize return-pointer to empty */
rexxretval.strlength = 0; /* initialize return-length to zero */
instore[1].strptr = NULL;
instore[1].strlength = 0;
instore[0].strptr = NULL;
instore[0].strlength = 0;
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"upload.rex", /* name for Rexx macrospacefile */
instore, /* INSTORE used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
free(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
printf("Finally del_macro.rex is called to delete macros.rex (named upload.rex)\n");
printf("out of the Open Object Rexx Macrospace.\n");
printf("Press Enter to continue\n");
scanf("%c", &val);
rc = (*FuncAddress)(
0, /* number of arguments */
NULL, /* array of arguments */
"del_macro.rex", /* name for Rexx macrospacefile */
NULL, /* INSTORE not used */
"ksh", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL, /* No EXITs on this call */
&rexxrc, /* Rexx program output */
&rexxretval ); /* Rexx program output */
printf("CALLREXX2 - Back from REXXSTART: Return Code: %d\n", rc);
printf("CALLREXX2 - RESULT-LENGTH: %d\n", rexxretval.strlength);
printf("CALLREXX2 - RESULT-Value: %s\n", rexxretval.strptr);
RexxFreeMemory(rexxretval.strptr);
printf("Press Enter to continue\n");
scanf("%c", &val);
system("clear");
return 0;
}
//
// MAIN program
//
int __cdecl main(int argc, char *argv[]) {
short rexxrc = 0; /* return code from rexx */
int i; /* loop counter */
int rc; /* actually running program RC */
const char *program_name; /* name to run */
char arg_buffer[8192]; /* starting argument buffer */
char *cp; /* option character pointer */
CONSTRXSTRING arguments; /* rexxstart argument */
size_t argcount;
RXSTRING rxretbuf; // program return buffer
BOOL from_string = FALSE; /* running from command line string? */
BOOL real_argument = TRUE; /* running from command line string? */
RXSTRING instore[2];
RexxInstance *pgmInst;
RexxThreadContext *pgmThrdInst;
RexxArrayObject rxargs, rxcargs;
RexxDirectoryObject dir;
RexxObjectPtr result;
rc = 0; /* set default return */
/*
* Convert the input array into a single string for the Object REXX
* argument string. Initialize the RXSTRING variable to point to this
* string. Keep the string null terminated so we can print it for debug.
* First argument is name of the REXX program
* Next argument(s) are parameters to be passed
*/
arg_buffer[0] = '\0'; /* default to no argument string */
program_name = NULL; /* no program to run yet */
for (i = 1; i < argc; i++) /* loop through the arguments */
{
/* is this an option switch? */
if ((*(cp=*(argv+i)) == '-' || *cp == '/')) {
switch (*++cp) {
case 'e':
case 'E': /* execute from string */
if (from_string == FALSE) { /* only treat 1st -e differently */
from_string = TRUE;
if ( argc == i+1 ) {
break;
}
program_name = "INSTORE";
instore[0].strptr = argv[i+1];
instore[0].strlength = strlen(instore[0].strptr);
instore[1].strptr = NULL;
instore[1].strlength = 0;
real_argument = FALSE;
}
break;
case 'v':
case 'V': { /* version display */
char *ptr = RexxGetVersionInformation();
if (ptr)
{
fprintf(stdout, ptr);
fprintf(stdout, "\n");
RexxFreeMemory(ptr);
}
return 0;
}
default: /* ignore other switches */
break;
}
}
else /* convert into an argument string */
{
if (program_name == NULL) { /* no name yet? */
program_name = argv[i]; /* program is first non-option */
break; /* end parsing after program_name has been resolved */
}
else if ( real_argument ) { /* part of the argument string */
if (arg_buffer[0] != '\0') { /* not the first one? */
strcat(arg_buffer, " "); /* add an blank */
}
strcat(arg_buffer, argv[i]); /* add this to the argument string */
}
real_argument = TRUE;
}
}
if (program_name == NULL) {
/* give a simple error message */
#undef printf
printf("\n");
fprintf(stderr,"Syntax is \"rexx filename [arguments]\"\n");
fprintf(stderr,"or \"rexx -e program_string [arguments]\"\n");
fprintf(stderr,"or \"rexx -v\".\n");
return -1;
}
else { /* real program execution */
getArguments(NULL, GetCommandLine(), &argcount, &arguments);
rxretbuf.strlength = 0L; /* initialize return to empty */
#ifdef REXXC_DEBUG
printf("program_name = %s\n", program_name);
printf("argv 0 = %s\n", argv[0]);
printf("argv 1 = %s\n", argv[1]);
printf("argv 2 = %s\n", argv[2]);
printf("argument.strptr = %s\n", argument.strptr);
printf("argument.strlenth = %lu\n", argument.strlength);
#endif
if (from_string) {
/* Here we call the interpreter. We don't really need to use */
/* all the casts in this call; they just help illustrate */
/* the data types used. */
rc=REXXSTART(argcount, /* number of arguments */
&arguments, /* array of arguments */
program_name, /* name of REXX file */
instore, /* rexx code from command line */
"CMD", /* Command env. name */
RXCOMMAND, /* Code for how invoked */
NULL,
&rexxrc, /* Rexx program output */
&rxretbuf ); /* Rexx program output */
/* rexx procedure executed*/
if ((rc==0) && rxretbuf.strptr) {
RexxFreeMemory(rxretbuf.strptr); /* Release storage only if */
}
freeArguments(NULL, &arguments);
}
else {
RexxCreateInterpreter(&pgmInst, &pgmThrdInst, NULL);
// configure the traditional single argument string
if ( arguments.strptr != NULL )
{
rxargs = pgmThrdInst->NewArray(1);
pgmThrdInst->ArrayPut(rxargs, pgmThrdInst->String(arguments.strptr), 1);
}
else
{
rxargs = pgmThrdInst->NewArray(0);
}
// set up the C args into the .local environment
dir = (RexxDirectoryObject)pgmThrdInst->GetLocalEnvironment();
if ( argc > 2 )
{
rxcargs = pgmThrdInst->NewArray(argc - 2);
}
else
{
rxcargs = pgmThrdInst->NewArray(0);
}
for (i = 2; i < argc; i++)
{
pgmThrdInst->ArrayPut(rxcargs,
pgmThrdInst->NewStringFromAsciiz(argv[i]),
i - 1);
}
pgmThrdInst->DirectoryPut(dir, rxcargs, "SYSCARGS");
// call the interpreter
result = pgmThrdInst->CallProgram(program_name, rxargs);
// display any error message if there is a condition.
// if there was an error, then that will be our return code.
// Although the return is a wholenumber_t we know there is no error
// code too big to fit in an int.
rc = (int)pgmThrdInst->DisplayCondition();
if (rc != 0)
{
pgmInst->Terminate();
return -rc; // well, the negation of the error number is the return code
}
// now handle any potential return value
if (result != NULL) {
pgmThrdInst->ObjectToInt32(result, &rc);
}
pgmInst->Terminate();
return rc;
}
}
return rc ? rc : rexxrc; // rexx program return cd
}
LONG REXXENTRY Api_Read_All_Elements_Of_A_Specific_Stem_From_REXX_VP(
PSZ name, /* Function name */
LONG numargs, /* Number of arguments */
RXSTRING args[], /* Argument array */
PSZ queuename, /* Current queue */
PRXSTRING retstr ) /* Return RXSTRING */
{
SHVBLOCK rxshv;
SHVBLOCK *prxshv = &rxshv, *temp, *interim;
RexxReturnCode rc;
char array[20], value[10];
char pch[64], *result;
char *varName;
int chars;
int j, k = 0;
if (numargs != 1 ) /* validate arg count */
return INVALID_ROUTINE;
strcpy(retstr->strptr, "0");
retstr->strlength = strlen(retstr->strptr);
strncpy(pch, args[0].strptr, 64);
prxshv->shvnext = NULL;
prxshv->shvname.strptr = pch; /* here we use our own buffer that is limited to 64 characters */
prxshv->shvname.strlength = strlen(pch);
prxshv->shvvalue.strptr = NULL; /* let rexx allocate for me */
prxshv->shvcode = RXSHV_SYFET;
rc = RexxVariablePool(prxshv);
if (rc)
{
strcpy(retstr->strptr, "ApiFETCH failed \n");
retstr->strlength = strlen(retstr->strptr);
return VALID_ROUTINE;
}
j = atoi(prxshv->shvvalue.strptr);
chars = '.';
result = strrchr(pch, chars);
result++;
*result = 0x00;
temp = prxshv;
memset(array, 0x00, sizeof(array));
memset(value, 0x00, sizeof(value));
for (k = 1;k <= j; k++)
{
temp->shvnext = (PSHVBLOCK)malloc(sizeof(SHVBLOCK)); /* allocate a new node */
temp = temp->shvnext;
if (!temp)
{
strcpy(retstr->strptr, "Allocation error occured");
retstr->strlength = strlen(retstr->strptr);
return VALID_ROUTINE;
}
strcpy(array, pch);
sprintf(value, "%d", k);
strcat(array, value);
temp->shvnext = NULL;
temp->shvname.strlength = strlen(array);
varName = malloc(strlen(array)+1);
strcpy(varName, array);
temp->shvname.strptr = varName;
temp->shvvalue.strptr = NULL; /* let rexx allocate it for me */
temp->shvcode = RXSHV_SYFET;
}
temp = prxshv->shvnext; /* first allocated one */
rc = RexxVariablePool(temp);
if (rc)
{
if (rc== RXSHV_MEMFL)
{
strcpy(retstr->strptr, "Allocation error occured");
retstr->strlength = strlen(retstr->strptr);
return VALID_ROUTINE;
}
else if (rc != RXSHV_LVAR)
{
printf("ERROR: shvret is %x hex after var nr. %d\n",rc,k);
return INVALID_ROUTINE;
}
}
for (k = 1;k <= j; k++)
{
printf("Name of the Stem-variable from the Variable Pool: %s, Value: %s \n", temp->shvname.strptr,temp->shvvalue.strptr);
free((void *)temp->shvname.strptr); /* allocated by us and therefore freed with free */
RexxFreeMemory(temp->shvvalue.strptr); /* allocated by REXX and therefore freed by RexxFreeMemory */
interim = temp;
temp = temp->shvnext; /* process next in list */
free(interim); /* free current node */
}
RexxFreeMemory(prxshv->shvvalue.strptr); /* allocated by REXX and freed by RexxFreeMemory */
return VALID_ROUTINE;
}
LONG REXXENTRY Api_Read_All_Variables_From_REXX_VP(
PSZ name, /* Function name */
LONG numargs, /* Number of arguments */
RXSTRING args[], /* Argument array */
PSZ queuename, /* Current queue */
PRXSTRING retstr ) /* Return RXSTRING */
{
SHVBLOCK rxshv;
SHVBLOCK *prxshv = &rxshv;
RexxReturnCode rc;
int i = 1;
strcpy(retstr->strptr, "0");
retstr->strlength = strlen(retstr->strptr);
prxshv->shvnext = NULL;
prxshv->shvname.strlength = 0;
prxshv->shvname.strptr = NULL; /* let rexx allocate it for me */
prxshv->shvvalue.strptr = NULL; /* let rexx allocate it for me */
/* Another way would be to assign an existing buffer and specify its max. length */
prxshv->shvcode = RXSHV_NEXTV;
/* Now reading all variables from the REXX-variable pool ***********/
rc = RexxVariablePool(prxshv);
if (rc)
{
if (rc != RXSHV_LVAR)
{
printf("ERROR: shvret is %x hex after var nr. %d \n",rc,i);
return INVALID_ROUTINE;
}
}
if (prxshv->shvvalue.strlength)
printf("Name of the variable from the Variable Pool: %s, Value: %s \n", prxshv->shvname.strptr, prxshv->shvvalue.strptr);
else
printf("Name of the variable from the Variable Pool: %s, Empty\n", prxshv->shvname.strptr);
i++;
RexxFreeMemory((void *)prxshv->shvname.strptr); /* free pointers allocated by REXX */
RexxFreeMemory(prxshv->shvvalue.strptr); /* free pointers allocated by REXX */
while (!prxshv->shvret)
{
prxshv->shvret = 0;
prxshv->shvnext = NULL;
prxshv->shvname.strlength = 0;
prxshv->shvname.strptr = NULL; /* let rexx allocate it for me */
prxshv->shvvalue.strptr = NULL; /* let rexx allocate it for me */
prxshv->shvcode = RXSHV_NEXTV;
rc = RexxVariablePool(prxshv);
if (rc)
{
if (rc== RXSHV_MEMFL)
{
strcpy(retstr->strptr, "Allocation error occured");
retstr->strlength = strlen(retstr->strptr);
return VALID_ROUTINE;
}
else if (rc != RXSHV_LVAR)
{
printf("ERROR: shvret is %x hex after var nr. %d\n",rc,i);
return INVALID_ROUTINE;
}
}
i++;
if (!prxshv->shvret)
{
if (prxshv->shvvalue.strlength)
printf("Name of the variable from the Variable Pool: %s, Value: %s \n", prxshv->shvname.strptr, prxshv->shvvalue.strptr);
else
printf("Name of the variable from the Variable Pool: %s, Empty\n", prxshv->shvname.strptr);
RexxFreeMemory((void *)prxshv->shvname.strptr); /* free pointers allocated by REXX */
RexxFreeMemory(prxshv->shvvalue.strptr); /* free pointers allocated by REXX */
}
}
return VALID_ROUTINE;
}
