OpenXM_contrib2/asir2000/parse/glob.c - diff

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Diff for /OpenXM_contrib2/asir2000/parse/glob.c between version 1.95 and 1.99

version 1.95, 2017/02/07 08:30:31

version 1.99, 2018/03/29 01:32:54

Line 45

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/parse/glob.c,v 1.94 2016/08/26 04:51:34 ohara Exp $

* $OpenXM: OpenXM_contrib2/asir2000/parse/glob.c,v 1.98 2018/03/27 06:29:19 noro Exp $

#include "ca.h"

#include "al.h"

Line 103 NODE current_option;

NODE user_int_handler, user_quit_handler;

struct oV oVAR[] = {

{"x",0,0}, {"y",0,0}, {"z",0,0}, {"u",0,0},

{"v",0,0}, {"w",0,0}, {"p",0,0}, {"q",0,0},

{"r",0,0}, {"s",0,0}, {"t",0,0}, {"a",0,0},

{"b",0,0}, {"c",0,0}, {"d",0,0}, {"e",0,0},

{"f",0,0}, {"g",0,0}, {"h",0,0}, {"i",0,0},

{"j",0,0}, {"k",0,0}, {"l",0,0}, {"m",0,0},

{"n",0,0}, {"o",0,0},

{"_x",0,0}, {"_y",0,0}, {"_z",0,0}, {"_u",0,0},

{"_v",0,0}, {"_w",0,0}, {"_p",0,0}, {"_q",0,0},

{"_r",0,0}, {"_s",0,0}, {"_t",0,0}, {"_a",0,0},

{"_b",0,0}, {"_c",0,0}, {"_d",0,0}, {"_e",0,0},

{"_f",0,0}, {"_g",0,0}, {"_h",0,0}, {"_i",0,0},

{"_j",0,0}, {"_k",0,0}, {"_l",0,0}, {"_m",0,0},

{"_n",0,0}, {"_o",0,0}

};

struct oVL oVLIST[52];

VL CO = oVLIST;

VL ALG;

VL LASTCO;

struct oVS oGPVS,oAPVS,oEPVS,oPPVS;

VS GPVS = &oGPVS;

Line 156 int Verbose;

Line 157 int Verbose;

int do_quiet;

void glob_init() {

int i;

for ( i = 0; i < 51; i++ ) {

VR(&oVLIST[i]) = &oVAR[i]; NEXT(&oVLIST[i]) = &oVLIST[i+1];

}

VR(&oVLIST[i]) = &oVAR[i]; NEXT(&oVLIST[i]) = 0;

asir_reallocarray((char **)&GPVS->va,(int *)&GPVS->asize,(int *)&GPVS->n,(int)sizeof(struct oPV));

LASTCO = &oVLIST[i];

asir_reallocarray((char **)&APVS->va,(int *)&APVS->asize,(int *)&APVS->n,(int)sizeof(struct oPV));

asir_reallocarray((char **)&GPVS->va,(int *)&GPVS->asize,(int *)&GPVS->n,(int)sizeof(struct oPV));

asir_reallocarray((char **)&PPVS->va,(int *)&PPVS->asize,(int *)&PPVS->n,(int)sizeof(struct oPV));

asir_reallocarray((char **)&APVS->va,(int *)&APVS->asize,(int *)&APVS->n,(int)sizeof(struct oPV));

CPVS = GPVS;

asir_reallocarray((char **)&PPVS->va,(int *)&PPVS->asize,(int *)&PPVS->n,(int)sizeof(struct oPV));

MKNODE(ONENODE,mkfnode(1,I_FORMULA,ONE),NULLP);

CPVS = GPVS;

OID(F_TRUE)=O_F; FOP(F_TRUE)=AL_TRUE; F_TRUE->arg.dummy = 0;

MKNODE(ONENODE,mkfnode(1,I_FORMULA,ONE),NULLP);

OID(F_FALSE)=O_F; FOP(F_FALSE)=AL_FALSE; F_FALSE->arg.dummy = 0;

OID(F_TRUE)=O_F; FOP(F_TRUE)=AL_TRUE; F_TRUE->arg.dummy = 0;

OID(Symbol_grlex) = O_SYMBOL; Symbol_grlex->name = "@grlex";

OID(F_FALSE)=O_F; FOP(F_FALSE)=AL_FALSE; F_FALSE->arg.dummy = 0;

Symbol_grlex->value = 0;

OID(Symbol_grlex) = O_SYMBOL; Symbol_grlex->name = "@grlex";

OID(Symbol_glex) = O_SYMBOL; Symbol_glex->name = "@glex";

Symbol_grlex->value = 0;

Symbol_glex->value = 1;

OID(Symbol_glex) = O_SYMBOL; Symbol_glex->name = "@glex";

OID(Symbol_lex) = O_SYMBOL; Symbol_lex->name = "@lex";

Symbol_glex->value = 1;

Symbol_lex->value = 2;

OID(Symbol_lex) = O_SYMBOL; Symbol_lex->name = "@lex";

sprintf(asirname,"%s/asir_symtab",asir_libdir);

Symbol_lex->value = 2;

sprintf(asirname,"%s/asir_symtab",asir_libdir);

}

void input_init(FILE *fp,char *name)

{

asir_infile = (INFILE)CALLOC(sizeof(struct oINFILE),1);

asir_infile->name = name; asir_infile->fp = fp;

asir_infile->ln = 1; NEXT(asir_infile) = 0;

}

void notdef(VL vl,Obj a,Obj b,Obj *c)

{

error("undefined arithmetic operation.");

}

int disable_debugger;

int do_asirrc;

int do_file;

char *do_filename;

Line 204 extern int mpi_myid;

Line 207 extern int mpi_myid;

#if !defined(VISUAL_LIB)

void ExitAsir() {

exit(0);

}

#endif

Line 216 void ExitAsir() {

Line 219 void ExitAsir() {

void asir_terminate(int status)

{

int t;

NODE n;

/* called from engine in Windows */

if ( status == 3 ) asir_infile = 0;

if ( asir_infile && asir_infile->ready_for_longjmp )

LONGJMP(asir_infile->jmpbuf,status);

else {

if ( user_quit_handler ) {

if ( !do_terse ) {

fprintf(stderr,"Calling the registered quit callbacks...");

#if defined(__MINGW32__)

fflush(stderr);

#endif

}

for ( n = user_quit_handler; n; n = NEXT(n) )

bevalf((FUNC)BDY(n),0);

if ( !do_terse ) {

fprintf(stderr, "done.\n");

#if defined(__MINGW32__)

fflush(stderr);

#endif

}

tty_reset();

#if defined(MPI)

if ( !mpi_myid )

close_allconnections();

mpi_finalize();

#else

#if defined(SIGPIPE)

set_signal(SIGPIPE,SIG_IGN);

#endif

close_allconnections();

#endif

if ( asir_out )

fflush(asir_out);

#if FEP

if ( do_fep ) {

stifle_history(MAXHIST);

write_history(asir_history);

}

#endif

ExitAsir();

}

void param_init() {

unsigned int et = 0xff;

extern int paristack;

if ( *((char *)&et) )

little_endian = 1;

else

little_endian = 0;

}

Obj user_defined_prompt;

void prompt() {

if ( !do_quiet && !do_fep && asir_infile->fp == stdin ) {

fprintf(asir_out,"[%d] ",APVS->n);

fflush(asir_out);

} else if ( do_quiet && user_defined_prompt

&& OID(user_defined_prompt)==O_STR) {

fprintf(asir_out,BDY((STRING)user_defined_prompt),APVS->n);

fflush(asir_out);

}

void sprompt(char *ptr)

{

sprintf(ptr,"[%d] ",APVS->n);

}

#if !defined(VISUAL) && !defined(__MINGW32__)

Line 325 static int which(char *prog, char *path, char *buf, si

Line 328 static int which(char *prog, char *path, char *buf, si

void cppname_init()

{

#if !defined(VISUAL) && !defined(__MINGW32__)

char *oxhome;

char oxcpp[BUFSIZ];

#define OXCPP "/bin/ox_cpp"

if ( oxhome = getenv("OpenXM_HOME") ) {

if ( strlen(oxhome)+strlen(OXCPP)<BUFSIZ ) {

sprintf(oxcpp,"%s%s",oxhome,OXCPP);

if ( access(oxcpp,X_OK&R_OK) == 0 ) {

strcpy(cppname,oxcpp);

return;

}

if (access(cppname, X_OK&R_OK) != 0) {

which("cpp", "/lib:/usr/ccs/lib:/usr/bin", cppname, BUFSIZ) ||

which("cpp", getenv("PATH"), cppname, BUFSIZ);

Line 349 FILE *in_fp;

Line 352 FILE *in_fp;

void process_args(int ac,char **av)

{

int nm,dv;

do_asirrc = 1;

#if !defined(MPI)

do_message = 1;

#endif

do_quiet = 0;

#if defined(VISUAL) && defined(VISUAL_CONSOLE)

while ( ac > 0 ) {

disable_debugger=1;

if ( !strcmp(*av,"-heap") && (ac >= 2) ) {

#endif

void GC_expand_hp(int);

do_quiet = 0;

while ( ac > 0 ) {

if ( !strcmp(*av,"-heap") && (ac >= 2) ) {

void GC_expand_hp(int);

GC_expand_hp(atoi(*(av+1))); av += 2; ac -= 2;

} else if ( !strcmp(*av,"-adj") && (ac >= 2) ) {

char *slash;

slash = strrchr(*(av+1),'/');

if ( slash ) {

*slash = 0;

nm = atoi(slash+1);

}else {

nm = 1;

}

dv = atoi(*(av+1));

Risa_GC_set_adj(nm,dv);

av += 2; ac -= 2;

} else if ( !strcmp(*av,"-cpp") && (ac >= 2) ) {

strcpy(cppname,*(av+1)); av += 2; ac -= 2;

} else if ( !strcmp(*av,"-f") && (ac >= 2) ) {

} else if ( !strcmp(*av,"-d") && (ac >= 2) ) {

do_quiet = 1;

#if defined(VISUAL) && defined(VISUAL_CONSOLE)

in_fp = fopen(*(av+1),"r");

disable_debugger=0;

if ( !in_fp ) {

#endif

fprintf(stderr,"%s does not exist!\n",*(av+1));

av += 2; ac -= 2;

} else if ( !strcmp(*av,"-f") && (ac >= 2) ) {

do_quiet = 1;

in_fp = fopen(*(av+1),"r");

if ( !in_fp ) {

fprintf(stderr,"%s does not exist!\n",*(av+1));

#if defined(__MINGW32__)

fflush(stderr);

#endif

asir_terminate(1);

}

do_file = 1;

do_filename = *(av+1);

av += 2; ac -= 2;

} else if ( !strcmp(*av,"-E") ) {

asir_setenv = 1; av++; ac--;

} else if ( !strcmp(*av,"-quiet") ) {

do_quiet = 1; av++; ac--;

} else if ( !strcmp(*av,"-norc") ) {

do_asirrc = 0; av++; ac--;

} else if ( !strcmp(*av,"-nomessage") ) {

do_message = 0; av++; ac--;

} else if ( !strcmp(*av,"-rootdir") && (ac >= 2) ) {

set_rootdir(*(av+1)); av += 2; ac -= 2;

} else if ( !strcmp(*av,"-maxheap") && (ac >= 2) ) {

void GC_set_max_heap_size(int);

GC_set_max_heap_size(atoi(*(av+1))); av += 2; ac -= 2;

#if !defined(VISUAL) && !defined(__MINGW32__)

} else if ( !strcmp(*av,"-display") && (ac >= 2) ) {

strcpy(displayname,*(av+1)); av += 2; ac -= 2;

#endif

#if FEP

} else if ( !strcmp(*av,"-fep") ) {

do_fep = 1; av++; ac--;

#endif

} else {

fprintf(stderr,"%s : unknown option.\n",*av);

#if defined(__MINGW32__)

fflush(stderr);

#endif

asir_terminate(1);

}

#if FEP

if ( do_fep ) {

char *home;

home = (char *)getenv("HOME");

if (!home)

home = ".";

sprintf (asir_history, "%s/.asir_history",home);

read_history(asir_history);

using_history();

}

#endif

}

#if defined(HAVE_SIGACTION)

void (*set_signal(int sig, void (*handler)(int)))(int)

{

struct sigaction act;

struct sigaction oldact;

if (handler == SIG_IGN || handler == SIG_DFL) {

return signal(sig,handler);

}

act.sa_handler=handler;

act.sa_flags=0;

act.sa_flags |= SA_RESTART;

sigemptyset(&act.sa_mask);

sigaction(sig,&act,&oldact);

return oldact.sa_handler;

}

#endif

void sig_init() {

#if !defined(VISUAL) && !defined(__MINGW32__)

set_signal(SIGINT,int_handler);

#else

void register_ctrlc_handler();

register_ctrlc_handler();

#endif

set_signal(SIGSEGV,segv_handler);

#if defined(SIGFPE)

set_signal(SIGFPE,fpe_handler);

#endif

#if defined(SIGPIPE)

set_signal(SIGPIPE,pipe_handler);

#endif

#if defined(SIGILL)

set_signal(SIGILL,ill_handler);

#endif

#if !defined(VISUAL) && !defined(__MINGW32__)

set_signal(SIGBUS,bus_handler);

#endif

}

static void (*old_int)(int);

void asir_save_handler() {

old_int = set_signal(SIGINT,SIG_IGN);

set_signal(SIGINT,old_int);

}

void asir_set_handler() {

set_signal(SIGINT,int_handler);

}

void asir_reset_handler() {

set_signal(SIGINT,old_int);

}

extern int I_am_server;

void resetenv(char *s)

{

extern FILE *outfile;

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

while ( NEXT(asir_infile) )

closecurrentinput();

resetpvs();

#if !defined(VISUAL) && !defined(__MINGW32__)

if ( do_server_in_X11 )

#endif

show_debug_window(0);

#if defined(VISUAL_LIB)

w_noflush_stderr(0);

#endif

#if defined(__MINGW32__)

fflush(stderr);

#endif

asir_out = stdout;

/* restore states */

reset_engine();

reset_io();

#if !defined(VISUAL) && !defined(__MINGW32__)

reset_timer();

#endif

LONGJMP(main_env,1);

}

void fatal(int n)

{

resetenv("return to toplevel");

}

extern int ox_int_received, critical_when_signal;

Line 530 extern int ox_get_pari_result;

Line 541 extern int ox_get_pari_result;

void int_handler(int sig)

{

extern NODE PVSS;

NODE t;

if ( do_file || disable_debugger ) {

if ( do_file ) {

LEAVE_SIGNAL_CS_ALL;

ExitAsir();

}

if ( !ox_get_pari_result && critical_when_signal ) {

ox_int_received = 1;

return;

}

if ( in_gc ) {

caught_intr = 1;

return;

}

#if defined(VISUAL) || defined(__MINGW32__)

suspend_timer();

#endif

set_signal(SIGINT,SIG_IGN);

#if !defined(VISUAL) && !defined(__MINGW32__)

if ( do_server_in_X11 ) {

debug(PVSS?((VS)BDY(PVSS))->usrf->f.usrf->body:0);

restore_handler();

return;

}

#endif

#if defined(linux)

#if 1

while ( stdin->_IO_read_ptr < stdin->_IO_read_end )

#else

while ( stdin->_gptr < stdin->_egptr )

#endif

getchar();

#endif

while ( 1 ) {

char buf[BUFSIZ];

char c;

fprintf(stderr,"interrupt ?(q/t/c/d/u/w/?) "); fflush(stderr);

buf[0] = '\n';

while ( !feof(stdin) && buf[0] == '\n' )

fgets(buf,BUFSIZ,stdin);

if ( feof(stdin) ) {

clearerr(stdin);

continue;

}

switch ( c = buf[0] ) {

case 'q':

while ( 1 ) {

fprintf(stderr,"Abort this session? (y or n) "); fflush(stderr);

fgets(buf,BUFSIZ,stdin);

if ( !strncmp(buf,"y",1) ) {

fprintf(stderr,"Bye\n");

#if defined(__MINGW32__)

fflush(stderr);

#endif

/* for terminating myself */

asir_infile = 0;

asir_terminate(1);

} else if ( !strncmp(buf,"n",1) ) {

restore_handler();

return;

}

break;

case 't':

case 'u':

while ( 1 ) {

fprintf(stderr,"Abort this computation? (y or n) "); fflush(stderr);

fgets(buf,BUFSIZ,stdin);

if ( !strncmp(buf,"y",1) )

break;

else if ( !strncmp(buf,"n",1) ) {

restore_handler();

return;

}

if ( debug_mode )

debug_mode = 0;

restore_handler();

if ( c == 'u' ) {

if ( user_int_handler ) {

if ( !do_terse ) {

fprintf(stderr,

"Calling the registered exception callbacks...");

#if defined(__MINGW32__)

fflush(stderr);

#endif

}

for ( t = user_int_handler; t; t = NEXT(t) )

bevalf((FUNC)BDY(t),0);

if ( !do_terse ) {

fprintf(stderr, "done.\n");

#if defined(__MINGW32__)

fflush(stderr);

#endif

}

resetenv("return to toplevel");

LEAVE_SIGNAL_CS_ALL;

break;

resetenv("return to toplevel");

case 'd':

break;

case 'd':

#if 0

nextbp = 1; nextbplevel = -1;

#endif

debug(PVSS?((VS)BDY(PVSS))->usrf->f.usrf->body:0);

restore_handler();

return;

case 'c':

restore_handler();

return; break;

case 'w':

showpos();

break;

case '?':

fprintf(stderr, "q:quit t:toplevel c:continue d:debug u:call registered handler w:where\n");

#if defined(__MINGW32__)

fflush(stderr);

#endif

break;

default:

break;

}

void restore_handler() {

#if defined(VISUAL) || defined(__MINGW32__)

resume_timer();

#endif

#if defined(SIGINT)

set_signal(SIGINT,int_handler);

#endif

}

void segv_handler(int sig)

{

#if defined(SIGSEGV)

set_signal_for_restart(SIGSEGV,segv_handler);

error("internal error (SEGV)");

#endif

}

void ill_handler(int sig)

{

#if defined(SIGILL)

set_signal_for_restart(SIGILL,ill_handler);

error("illegal instruction (ILL)");

#endif

}

Line 691 void ill_handler(int sig)

Line 703 void ill_handler(int sig)

void alrm_handler(int sig)

{

fprintf(stderr,"interval timer expired (VTALRM)\n");

#if defined(__MINGW32__)

fflush(stderr);

#endif

LONGJMP(timer_env,1);

}

void bus_handler(int sig)

{

#if defined(SIGBUS)

set_signal_for_restart(SIGBUS,bus_handler);

error("internal error (BUS ERROR)");

#endif

}

void fpe_handler(int sig)

{

#if defined(SIGFPE)

set_signal_for_restart(SIGFPE,fpe_handler);

error("internal error (FPE)");

#endif

}

void pipe_handler(int sig)

{

#if defined(SIGPIPE)

set_signal_for_restart(SIGPIPE,pipe_handler);

end_critical();

error("internal error (BROKEN PIPE)");

#endif

}

Line 737 extern int evalstatline;

Line 749 extern int evalstatline;

void set_lasterror(char *s)

{

strncpy(LastError,s,BUFSIZ);

LastError[BUFSIZ-1] = 0;

}

SNODE error_snode;

Line 746 int error_in_timer;

Line 758 int error_in_timer;

void error(char *s)

{

SNODE *snp=0;

#if !defined(VISUAL) && !defined(__MINGW32__)

if ( !error_in_timer && timer_is_set )

alrm_handler(SIGNAL_FOR_TIMER);

#endif

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

#if defined(__MINGW32__)

fflush(stderr);

#endif

set_lasterror(s);

if ( CPVS != GPVS ) {

if ( CPVS && CPVS->usrf && CPVS->usrf->f.usrf )

searchsn(&BDY(CPVS->usrf->f.usrf),evalstatline,&snp);

if ( snp )

error_snode = *snp;

else

error_snode = 0;

} else

error_snode = 0;

if ( do_file ) {

char errbuf[BUFSIZ*5]; /* sufficient to store stack information ? */

sprintf(errbuf,"%s\n",s);

showpos_to_string(errbuf+strlen(errbuf));

set_lasterror(errbuf);

ExitAsir();

}

if ( debug_mode )

LONGJMP(debug_env,1);

if ( CPVS != GPVS )

if ( !no_debug_on_error && (do_server_in_X11 || isatty(0)) )

bp(error_snode);

if ( I_am_server )

showpos_to_list(&LastStackTrace);

resetenv("return to toplevel");

}

void goto_toplevel(char *s)

{

SNODE *snp=0;

#if !defined(VISUAL) && !defined(__MINGW32__)

if ( timer_is_set )

alrm_handler(SIGNAL_FOR_TIMER);

#endif

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

#if defined(__MINGW32__)

fflush(stderr);

#endif

if ( do_file ) {

char errbuf[BUFSIZ*5]; /* sufficient to store stack information ? */

sprintf(errbuf,"%s\n",s);

showpos_to_string(errbuf+strlen(errbuf));

ExitAsir();

}

resetenv("return to toplevel");

}

#if !defined(VISUAL) && !defined(__MINGW32__)

Line 811 void goto_toplevel(char *s)

Line 823 void goto_toplevel(char *s)

void set_timer(int interval)

{

struct itimerval it;

it.it_interval.tv_sec = interval;

it.it_interval.tv_usec = 0;

it.it_value.tv_sec = interval;

it.it_value.tv_usec = 0;

setitimer(ITIMER_TYPE,&it,0);

set_signal(SIGNAL_FOR_TIMER,alrm_handler);

timer_is_set = 1;

}

void reset_timer()

{

struct itimerval it;

it.it_interval.tv_sec = 0;

it.it_interval.tv_usec = 0;

it.it_value.tv_sec = 0;

it.it_value.tv_usec = 0;

setitimer(ITIMER_TYPE,&it,0);

set_signal(SIGNAL_FOR_TIMER,SIG_IGN);

timer_is_set = 0;

}

#endif

Line 841 char *get_asir_distribution();

Line 853 char *get_asir_distribution();

char *get_gcversion()

{

}

char *get_pariversion()

{

return "";

}

char *get_intervalversion()

{

#if defined(INTERVAL)

return " + Interval Arithmetic";

#else

return "";

#endif

}

void copyright()

{

char *scopyright();

fputs(scopyright(), stdout);

}

char *scopyright()

{

static char *notice;

char *s1, *s2, *s3, *s4;

int d, len;

char *format = "This is Risa/Asir%s, Version %d (%s Distribution).\nCopyright (C) 1994-2000, all rights reserved, FUJITSU LABORATORIES LIMITED.\nCopyright 2000-2007, Risa/Asir committers, http://www.openxm.org/.\n%s%s";

if (!notice) {

s1 = get_intervalversion();

s2 = get_asir_distribution();

s3 = get_gcversion();

s4 = get_pariversion();

d = get_asir_version();

len = (strlen(format)-8)+strlen(s1)+strlen(s2)+strlen(s3)+strlen(s4)+sizeof(int)*3;

notice = MALLOC(len+1);

sprintf(notice, format, s1, d, s2, s3, s4);

}

return notice;

}

#if defined(VISUAL) || defined(__MINGW32__)

int recv_intr;

static CRITICAL_SECTION signal_cs;

static int initialized_signal_cs;

static int signal_cs_count;

static void init_signal_cs()

{

if (!initialized_signal_cs) {

InitializeCriticalSection(&signal_cs);

initialized_signal_cs=1;

signal_cs_count=0;

}

void try_enter_signal_cs()

{

init_signal_cs();

if(TryEnterCriticalSection(&signal_cs)) {

signal_cs_count++;

}

void enter_signal_cs()

{

init_signal_cs();

EnterCriticalSection(&signal_cs);

signal_cs_count++;

}

void leave_signal_cs()

{

init_signal_cs();

if(signal_cs_count>0) {

LeaveCriticalSection(&signal_cs);

signal_cs_count--;

}

void leave_signal_cs_all()

{

if (!initialized_signal_cs) {

init_signal_cs();

}

while(signal_cs_count>0) {

LeaveCriticalSection(&signal_cs);

signal_cs_count--;

}

void check_intr()

{

extern int recv_intr;

if ( recv_intr ) {

enter_signal_cs();

if ( recv_intr == 1 ) {

if ( recv_intr ) {

recv_intr = 0;

if ( recv_intr == 1 ) {

int_handler(SIGINT);

recv_intr = 0;

} else {

int_handler(SIGINT);

recv_intr = 0;

} else {

ox_usr1_handler(0);

recv_intr = 0;

}

ox_usr1_handler(0);

}

leave_signal_cs_all();

}

#endif

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