OpenXM/src/kan96xx/Kan/stackmachine.c - diff

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Diff for /OpenXM/src/kan96xx/Kan/stackmachine.c between version 1.14 and 1.23

version 1.14, 2003/12/05 13:51:31

version 1.23, 2004/09/12 01:53:11

Line 1

/* $OpenXM: OpenXM/src/kan96xx/Kan/stackmachine.c,v 1.13 2003/11/20 09:20:36 takayama Exp $ */

/* $OpenXM: OpenXM/src/kan96xx/Kan/stackmachine.c,v 1.22 2004/09/12 01:32:08 takayama Exp $ */

/* stackmachin.c */

#include <stdio.h>

Line 54 struct context *PrimitiveContextp = &StandardContext;

static struct object ObjTmp; /* for poor compiler */

int Calling_ctrlC_hook = 0;

int StandardMacros = 1;

int StartAFile = 0;

char *StartFile;

Line 81 int UserCtrlC = 0;

Line 83 int UserCtrlC = 0;

int OXlock = 0;

int OXlockSaved = 0;

char *UD_str;

int UD_attr;

struct object * newObject()

{

struct object *r;

Line 216 int putUserDictionary(str,h0,h1,ob,dic)

Line 221 int putUserDictionary(str,h0,h1,ob,dic)

}

r = x;

if (Strict2) {

switch((dic[x]).attr) {

switch(((dic[x]).attr) & (PROTECT | ABSOLUTE_PROTECT)) {

case PROTECT:

r = -PROTECT; /* Protected, but we rewrite it. */

break;

Line 224 int putUserDictionary(str,h0,h1,ob,dic)

Line 229 int putUserDictionary(str,h0,h1,ob,dic)

r = -ABSOLUTE_PROTECT; /* Protected and we do not rewrite it. */

return(r);

default:

(dic[x]).attr = 0;

/* (dic[x]).attr = 0; */ /* It is not necesarry, I think. */

break;

}

Line 247 struct object findUserDictionary(str,h0,h1,cp)

Line 252 struct object findUserDictionary(str,h0,h1,cp)

char *str; /* key */

int h0,h1; /* The hashing values of the key. */

struct context *cp;

/* Set char *UD_str, int UD_attr (attributes) */

{

int x;

struct dictionary *dic;

extern char *UD_str;

extern int UD_attr;

UD_str = NULL; UD_attr = -1;

dic = cp->userDictionary;

x = h0;

while (1) {

if ((dic[x]).key == EMPTY) { break; }

if (strcmp((dic[x]).key,str) == 0) {

UD_str = (dic[x]).key; UD_attr = (dic[x]).attr;

return( (dic[x]).obj );

}

x = (x+h1) % USER_DICTIONARY_SIZE;

Line 347 int hash0(str)

Line 357 int hash0(str)

{

int h=0;

while (*str != '\0') {

h = ((h*128)+(*str)) % USER_DICTIONARY_SIZE;

h = ((h*128)+((unsigned char)(*str))) % USER_DICTIONARY_SIZE;

str++;

}

return(h);

Line 356 int hash0(str)

Line 366 int hash0(str)

int hash1(str)

char *str;

{

return(8-(str[0]%8));

return(8-((unsigned char)(str[0])%8));

}

void hashInitialize(struct dictionary *dic)

Line 730 void scanner() {

Line 740 void scanner() {

struct object ob;

extern int Quiet;

extern void ctrlC();

int tmp;

int tmp, status;

char *tmp2;

extern int ErrorMessageMode;

int jval;

extern int InSendmsg2;

int infixOn = 0;

struct tokens infixToken;

getokenSM(INIT);

initSystemDictionary();

Line 752 void scanner() {

Line 764 void scanner() {

}

/* setup quiet mode or not */

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

if (Quiet) {

token.token = " /@@@.quiet 1 def ";

}else {

token.token = " /@@@.quiet 0 def ";

}

executeToken(token); /* execute startup commands */

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* set hashing values */

tmp = findSystemDictionary(token.token);

Line 775 void scanner() {

Line 787 void scanner() {

StartFile = (char *)sGC_malloc(sizeof(char)*(strlen(StartFile)+

40));

sprintf(StartFile,"$%s$ run\n",tmp2);

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

token.token = StartFile;

executeToken(token); /* execute startup commands */

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* set hashing values */

tmp = findSystemDictionary(token.token);

Line 788 void scanner() {

Line 800 void scanner() {

}

if (StartAString) {

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

token.token = StartString;

executeToken(token); /* execute startup commands */

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* set hashing values */

tmp = findSystemDictionary(token.token);

Line 817 void scanner() {

Line 829 void scanner() {

if (DebugStack >= 1) {

fprintf(Fstack,"\nscanner> ");

}

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

if (!Calling_ctrlC_hook) { /* to avoid recursive call of ctrlC-hook. */

Calling_ctrlC_hook = 1;

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

}

Calling_ctrlC_hook = 0;

KSexecuteString(" (Computation is interrupted.) "); /* move to ctrlC-hook? */

InSendmsg2 = 0;

infixOn = 0;

continue ;

} else { }

if (DebugStack >= 1) { printOperandStack(); }

token = getokenSM(GET);

if ((tmp=executeToken(token)) < 0) break;

if ((status=executeToken(token)) < 0) break;

/***if (tmp == 1) fprintf(stderr," --- exit --- \n");*/

/***if (status == 1) fprintf(stderr," --- exit --- \n");*/

/* fprintf(stderr,"token.token=%s, status=%d, infixOn=%d\n",token.token,status,infixOn); */

if (status & STATUS_INFIX) {

infixOn = 1; infixToken = token; infixToken.tflag |= NO_DELAY;

}else if (infixOn) {

infixOn = 0;

if ((status=executeToken(infixToken)) < 0) break;

}

Line 866 void ctrlC(sig)

Line 890 void ctrlC(sig)

return;

}

if (ErrorMessageMode != 1) {

(void *) traceShowStack();

fprintf(Fstack,"User interruption by ctrl-C. We are in the top-level.\n");

fprintf(Fstack,"Type in quit in order to exit sm1.\n");

}

traceClearStack();

if (GotoP) {

fprintf(Fstack,"The interpreter was looking for the label <<%s>>. It is also aborted.\n",GotoLabel);

GotoP = 0;

Line 899 int executeToken(token)

Line 925 int executeToken(token)

int status;

struct tokens *tokenArray;

int i,h0,h1;

int infixOn;

struct tokens infixToken;

extern int WarningMessageMode;

extern int Strict;

extern int InSendmsg2;

infixOn = 0;

if (GotoP) { /* for goto */

if (token.kind == ID && isLiteral(token.token)) {

if (strcmp(&((token.token)[1]),GotoLabel) == 0) {

Line 948 int executeToken(token)

Line 977 int executeToken(token)

h1 = ((token.object.lc.op)->rc).ival;

ob=findUserDictionary(token.token,h0,h1,CurrentContextp);

primitive = ((token.object.rc.op)->lc).ival;

if (!(token.tflag & NO_DELAY)) {

if ((ob.tag >= 0) && (UD_attr & ATTR_INFIX)) {

tracePopName(); return STATUS_INFIX;

}

if (ob.tag >= 0) {

/* there is a definition in the user dictionary */

if (ob.tag == SexecutableArray) {

tracePushName(token.token);

tokenArray = ob.lc.tokenArray;

size = ob.rc.ival;

for (i=0; i<size; i++) {

status = executeToken(tokenArray[i]);

if (status != 0) return(status);

if ((status & STATUS_BREAK) || (status < 0)) {

tracePopName(); return(status);

}

if (status & STATUS_INFIX) {

if (i == size-1) errorStackmachine("Infix operator at the end of an executable array.");

infixOn = 1; infixToken = tokenArray[i];

infixToken.tflag |= NO_DELAY;

continue;

}else if (infixOn) {

infixOn = 0;

status = executeToken(infixToken);

if ((status & STATUS_BREAK) || (status < 0)) {

tracePopName(); return(status);

}

tracePopName();

}else {

Kpush(ob);

}

} else if (primitive) {

tracePushName(token.token);

/* system operator */

ob.tag = Soperator;

ob.lc.ival = primitive;

return(executePrimitive(ob));

status = executePrimitive(ob);

tracePopName();

return(status);

} else {

if (QuoteMode) {

if (InSendmsg2) return(DO_QUOTE);

Line 1054 errorStackmachine(str)

Line 1108 errorStackmachine(str)

fprintf(stderr,str);

}

fprintf(stderr,"\n");

(void) traceShowStack();

}

traceClearStack();

if (GotoP) {

fprintf(Fstack,"The interpreter was looking for the label <<%s>>. It is also aborted.\n",GotoLabel);

GotoP = 0;

Line 1125 KSexecuteString(s)

Line 1181 KSexecuteString(s)

}

recursive--;

if (localCatchCtrlC) { signal(SIGINT, sigfunc); }

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

if (!Calling_ctrlC_hook) {

Calling_ctrlC_hook = 1;

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

}

Calling_ctrlC_hook = 0;

KSexecuteString(" (Computation is interrupted.) "); /* move to ctrlC-hook?*/

return(-1);

}else{ }

Line 1143 KSexecuteString(s)

Line 1203 KSexecuteString(s)

}

recursive = 0;

if (localCatchCtrlC) { signal(SIGINT, sigfunc); }

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

if (!Calling_ctrlC_hook) {

Calling_ctrlC_hook = 1;

KSexecuteString(" ctrlC-hook "); /* Execute User Defined functions. */

}

Calling_ctrlC_hook = 0;

KSexecuteString(" (Computation is interrupted.) ");

return(-1);

}else { }

Line 1152 KSexecuteString(s)

Line 1217 KSexecuteString(s)

recursive++;

token.token = s;

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

executeToken(token);

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* no use */

tmp = findSystemDictionary(token.token);

Line 1173 KSdefineMacros() {

Line 1238 KSdefineMacros() {

struct object ob;

if (StandardMacros && (strlen(SMacros))) {

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

token.token = SMacros;

executeToken(token); /* execute startup commands */

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* no use */

tmp = findSystemDictionary(token.token);

Line 1206 void KSstart() {

Line 1271 void KSstart() {

} else { } */

/* setup quiet mode or not */

token.kind = EXECUTABLE_STRING;

token.kind = EXECUTABLE_STRING; token.tflag = 0;

if (Quiet) {

token.token = " /@@@.quiet 1 def ";

}else {

token.token = " /@@@.quiet 0 def ";

}

executeToken(token); /* execute startup commands */

token.kind = ID;

token.kind = ID; token.tflag = 0;

token.token = "exec";

token = lookupTokens(token); /* set hashing values */

tmp = findSystemDictionary(token.token);

Line 1495 struct object KSdupErrors() {

Line 1560 struct object KSdupErrors() {

void cancelAlarm() {

alarm((unsigned int) 0);

signal(SIGALRM,SIG_DFL);

}

/* back-trace */

#define TraceNameStackSize 3000

char *TraceNameStack[TraceNameStackSize];

int TraceNameStackp = 0;

void tracePushName(char *s) {

char *t;

t = (char *)sGC_malloc(strlen(s)+1);

if (t == NULL) {

fprintf(stderr,"No more memory.\n"); return;

}

strcpy(t,s);

t = s;

TraceNameStack[TraceNameStackp++] = t;

if (TraceNameStackp >= TraceNameStackSize) {

fprintf(stderr,"Warning: TraceNameStack overflow. Clearing the stack.\n");

TraceNameStackp = 0;

}

void traceClearStack(void) {

TraceNameStackp = 0;

}

char *tracePopName(void) {

if (TraceNameStackp <= 0) return (char *) NULL;

return TraceNameStack[--TraceNameStackp];

}

#define TRACE_MSG_SIZE 320

char *traceShowStack(void) {

char *s;

char *t;

int p;

s = (char *) sGC_malloc(TRACE_MSG_SIZE);

if (s == NULL) {

fprintf(stderr,"No more memory.\n"); return NULL;

}

sprintf(s,"Trace: ");

p = strlen(s);

do {

t = tracePopName();

if (t == NULL) {

s[p] = ';'; s[p+1] = 0;

break;

}else if ((strlen(t) + p -10) > TRACE_MSG_SIZE) {

/* fprintf(stderr,"p=%d, TraceNameStackp=%d, strlen(t)=%d, t=%s\n",p,TraceNameStackp,strlen(t),t); */

strcpy(&(s[p])," ...");

break;

}

strcpy(&(s[p]),t); p += strlen(t);

strcpy(&(s[p]),"<-"); p += 2;

} while (t != (char *)NULL);

fprintf(stderr,"%s\n",s);

return s;

}

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