OpenXM/src/oxc/sm_ext.c - diff

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Diff for /OpenXM/src/oxc/sm_ext.c between version 1.7 and 1.12

version 1.7, 2000/12/01 01:53:34

version 1.12, 2016/04/02 15:01:46

Line 1

/* -*- mode: C; coding: euc-japan -*- */

/* $OpenXM: OpenXM/src/oxc/sm_ext.c,v 1.6 2000/11/30 10:27:02 ohara Exp $ */

/* $OpenXM: OpenXM/src/oxc/sm_ext.c,v 1.11 2016/04/01 18:12:39 ohara Exp $ */

#include <stdio.h>

#include <stdlib.h>

Line 10

#include <ox_toolkit.h>

#include "sm.h"

static int sm_control_spawn();

static int sm_control_terminate();

static int sm_control_kill();

static int sm_control_reset_pid();

static void pid_extend();

static int pid_lookup(pid_t pid);

static int pid_registered(pid_t pid);

static void pid_register(pid_t pid);

static void pid_delete(pid_t pid);

static int pid_reset(pid_t pid);

static int pid_kill(pid_t pid);

static void pid_kill_all();

#define IS_CMO_INT32(c) ((c) && ((c)->tag == CMO_INT32))

#define IS_CMO_STRING(c) ((c) && ((c)->tag == CMO_STRING))

#define IS_CMO_LIST(c) ((c) && ((c)->tag == CMO_LIST))

#define IS_CMO_LIST_LEN(c,n) (IS_CMO_LIST(c) && (list_length((c)) >= (n)))

/* ultra loose data base. */

static db db_localfunc[] = {

static struct { int (*func_ptr)(); char *key; } tbl_lfunc[] = {

{lf_oxc_open, "spawn"},

{lf_oxc_open, "oxc_open"},

{NULL, NULL}

};

static db db_sm[] = {

static struct { int (*func_ptr)(); int key; } tbl_smcmd[] = {

{sm_control_spawn, SM_control_spawn_server},

{sm_control_terminate, SM_control_terminate_server},

{sm_executeFunction, SM_executeFunction},

Line 24 static db db_sm[] = {

Line 44 static db db_sm[] = {

{sm_set_mathcap, SM_setMathCap},

{sm_popCMO, SM_popCMO},

{sm_pops, SM_pops},

{sm_control_reset_pid, SM_control_reset_connection_server},

{sm_control_kill, SM_control_kill},

{NULL, NULL}

{NULL, 0}

};

extern OXFILE *stack_oxfp;

__inline__

int (*sm_search_f(int code))()

static int (*db_search(void *key, db *dbs, int (*cmp)(void *, void *)))()

{

while (dbs->key != NULL) {

int i;

if (cmp(key, dbs->key) == 0) {

for (i=0; tbl_smcmd[i].key != 0; i++) {

return dbs->func_ptr;

if (code == tbl_smcmd[i].key) {

return tbl_smcmd[i].func_ptr;

}

dbs++;

}

return NULL;

}

static int (*lookup_localfunction(char *name))()

{

return db_search(name, db_localfunc, strcmp);

int i;

for (i=0; tbl_lfunc[i].key != NULL; i++) {

if (strcmp(name, tbl_lfunc[i].key) == 0) {

return tbl_lfunc[i].func_ptr;

}

return NULL;

}

Line 53 Normally local functions push a return value to the st

Line 78 Normally local functions push a return value to the st

but, if error occurs, then these return non-positive numbers and

the sm_executeFunction push an error object.

void sm_executeFunction()

int sm_executeFunction()

{

int (*func)();

int retcode = 0;

Line 62 void sm_executeFunction()

Line 87 void sm_executeFunction()

func = lookup_localfunction(((cmo_string *)ob)->s);

if (func != NULL) {

if ((retcode = func()) > 0) {

return;

return 0;

}

push_error(retcode, ob);

return 0;

}

/* getargs() set number of popped objects to argc. */

Line 78 static int getargs(cmo ***args)

Line 104 static int getargs(cmo ***args)

cmo_int32 *m = (cmo_int32 *)pop();

if (m->tag != CMO_INT32 || (argc = m->i) < 0) {

fprintf(stderr, "oxc: invalid arguments\n");

ox_printf("oxc: invalid arguments\n");

}else {

argv = (cmo **)malloc(sizeof(cmo *)*argc);

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

Line 108 static void pids_extend()

Line 134 static void pids_extend()

pids = pids2;

}

int pid_lookup(pid_t pid)

static int pid_lookup(pid_t pid)

{

int i;

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

Line 119 int pid_lookup(pid_t pid)

Line 145 int pid_lookup(pid_t pid)

return -1;

}

int pid_registed(pid_t pid)

static int pid_registered(pid_t pid)

{

return pid_lookup(pid)+1;

}

void pid_regist(pid_t pid)

static void pid_register(pid_t pid)

{

if (pid_ptr >= pid_size) {

pids_extend();

}

pids[pid_ptr++] = pid;

}

void pid_delete(pid_t pid)

static void pid_delete(pid_t pid)

{

int i = pid_lookup(pid);

if (i >= 0 && i != --pid_ptr) {

Line 140 void pid_delete(pid_t pid)

Line 166 void pid_delete(pid_t pid)

}

int pid_reset(pid_t pid)

static int pid_reset(pid_t pid)

{

if (pid_registed(pid)) {

if (pid_registered(pid)) {

kill(pid, SIGUSR1);

return 1;

}

return 0;

}

int pid_kill(pid_t pid)

static int pid_kill(pid_t pid)

{

if (pid_registed(pid)) {

if (pid_registered(pid)) {

kill(pid, SIGKILL);

pid_delete(pid);

return 1;

}

return 0;

}

/* Killing all child processes */

void pid_kill_all()

static void pid_kill_all()

{

while(pid_ptr > 0) {

kill(pids[--pid_ptr], SIGKILL);

}

cmo_error2 *type_checker(cmo *ob, int type)

{

/* cmo_error2 *err_ob; */

if (ob->tag != type) {

/* push and return an error object */

}

return NULL;

}

int sm_control_spawn_main(int argc, cmo *argv[])

int lf_oxc_open()

{

char *cmd = ((cmo_string *)argv[0])->s;

cmo_int32 *argc = (cmo_int32 *)pop();

int port = ((cmo_int32 *)argv[1])->i;

if (argc->tag == CMO_INT32 && argc->i == 1) {

pid_t pid = lf_oxc_open_main(cmd, port);

return sm_control_spawn();

if (pid > 0) {

}

push(new_cmo_int32(pid));

push_error(-1, (cmo *)argc);

pid_regist(pid);

return -1;

}

return pid;

}

int lf_oxc_open()

int sm_control_spawn_typecheck(cmo_list *args, int *portp, char **s)

{

cmo **argv;

cmo_int32 *port;

if (getargs(&argv) != 2 ||

cmo_string *name;

type_checker(argv[0], CMO_STRING) != NULL

|| type_checker(argv[0], CMO_INT32) != NULL) {

if( IS_CMO_LIST_LEN(args,2) ) {

fprintf(stderr, "oxc: invalid arguments\n");

name = (cmo_string *)list_nth(args, 1);

return -1;

args = (cmo_list *)list_first_cmo(args);

if( IS_CMO_STRING(name) && IS_CMO_LIST_LEN(args,1) ) {

port = (cmo_int32 *)list_first_cmo(args);

if( IS_CMO_INT32(port) && name->s && which(name->s, getenv("PATH")) != NULL) {

*portp = port->i;

*s = name->s;

return 1;

}

return sm_control_spawn_main(2, argv);

return 0;

}

int sm_control_spawn()

static int sm_control_spawn()

{

cmo *argv[2];

int port;

argv[0] = pop();

char *s;

argv[1] = pop();

pid_t pid;

cmo *args = pop();

if (type_checker(argv[0], CMO_STRING) != NULL

if (sm_control_spawn_typecheck((cmo_list *)args, &port, &s)) {

|| type_checker(argv[0], CMO_INT32) != NULL) {

pid = lf_oxc_open_main(s, (short)port);

fprintf(stderr, "oxc: invalid arguments\n");

if (pid > 0) {

return -1;

push((cmo *)new_cmo_int32(pid));

pid_register(pid);

ox_printf("oxc: spawns %s\n", s);

return pid;

}

return sm_control_spawn_main(2, argv);

push_error(-1, (cmo *)args);

return 0;

}

void sm_mathcap()

int sm_mathcap()

{

push((cmo *)oxf_cmo_mathcap(stack_oxfp));

return 0;

}

void sm_set_mathcap()

int sm_set_mathcap()

{

cmo_mathcap *m = (cmo_mathcap *)pop();

if (m->tag == CMO_MATHCAP) {

oxf_mathcap_update(stack_oxfp, m);

}else {

push_error(-1, m);

push_error(-1, (cmo *)m);

/* an error object must be pushed */

}

return 0;

}

void sm_control_kill()

static int sm_control_kill()

{

pid_kill_all();

return 0;

}

void sm_control_terminate()

static int sm_control_terminate()

{

cmo_int32 *m = (cmo_int32 *)pop();

pid_t pid = m->i;

if (m->tag != CMO_INT32 || !pid_kill(pid)) {

push_error(-1, m);

push_error(-1, (cmo *)m);

}

return 0;

}

void sm_control_reset_pid()

static int sm_control_reset_pid()

{

cmo_int32 *m = (cmo_int32 *)pop();

pid_t pid = m->i;

if (m->tag != CMO_INT32 || !pid_reset(pid)) {

push_error(-1, m);

push_error(-1, (cmo *)m);

return;

return 0;

}

/* ... */

}

return 0;

static int intcmp(int key1, int key2)

{

return key1 != key2;

}

int (*sm_search_f(int code))()

{

return db_search(code, db_sm, intcmp);

}

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