Exemple #1
0
// go searching through a single dir for a name match. use MyStrcmp()
// for case-insensitive compare. use '/' to separate directory components
// if more after '/' and we matched a dir, recurse down there
// RETURN: ptr to dir entry if found, else 0
// once any dir matched, don't return name which dir was matched
dir_t *FindNameSub( char *name, dir_t *this_dir ) {
   dir_t *dir_p = this_dir;
   int len = MyStrlen( name );
   char *p;

// if name ends in '/', chances are we need to decend into the dir
   if( ( p = strchr( name, '/' ) ) != NULL) len = p - name;

   for( ; dir_p->name; dir_p++ ) {
      if( 1 == MyStrcmp( name, dir_p->name, len ) ) {
         if( p && p[1] != 0 ) {
// user is trying for a sub-dir. if there are more components, make sure this
// is a dir. if name ends with "/" we don't check. thus "hello.html/" is legal
             while( *p == '/' ) {
                p++;
                if( '\0' == *p ) return dir_p; // "/README/////" is OK
             }

             name = p;
             return FindNameSub( name, (dir_t *)dir_p->data );
         }
         return dir_p;
      }
   }

   return NULL;   // no match found
}
Exemple #2
0
int main()
{
    char source[50]  = {0xff};
    char dest[50] = {0xff};

    scanf("%s", source);
    scanf("%s", dest);

    printf("result:%d\n", MyStrcmp(source, dest));

    return 0;
}
Exemple #3
0
void SetTriggerKeys (char *str)
{
    int             i;
    char            strKey[2][30];
    char           *p;

    //首先来判断用户设置了几个热键,最多为2
    p = str;

    i = 0;
    iTriggerKeyCount = 0;
    while (*p) {
	if (*p == ' ') {
	    iTriggerKeyCount++;
	    while (*p == ' ')
		p++;
	    strcpy (strKey[1], p);
	    break;
	}
	else
	    strKey[0][i++] = *p++;
    }
    strKey[0][i] = '\0';

    Trigger_Keys = (XIMTriggerKey *) malloc (sizeof (XIMTriggerKey) * (iTriggerKeyCount + 2));
    for (i = 0; i <= (iTriggerKeyCount + 1); i++) {
	Trigger_Keys[i].keysym = 0;
	Trigger_Keys[i].modifier = 0;
	Trigger_Keys[i].modifier_mask = 0;
    }

    for (i = 0; i <= iTriggerKeyCount; i++) {
	if (MyStrcmp (strKey[i], "CTRL_")) {
	    Trigger_Keys[i].modifier = Trigger_Keys[i].modifier | ControlMask;
	    Trigger_Keys[i].modifier_mask = Trigger_Keys[i].modifier_mask | ControlMask;
	}
	else if (MyStrcmp (strKey[i], "SHIFT_")) {
	    Trigger_Keys[i].modifier = Trigger_Keys[i].modifier | ShiftMask;
	    Trigger_Keys[i].modifier_mask = Trigger_Keys[i].modifier_mask | ShiftMask;
	}
	else if (MyStrcmp (strKey[i], "ALT_")) {
	    Trigger_Keys[i].modifier = Trigger_Keys[i].modifier | Mod1Mask;
	    Trigger_Keys[i].modifier_mask = Trigger_Keys[i].modifier_mask | Mod1Mask;
	}
	else if (MyStrcmp (strKey[i], "SUPER_")) {
	    Trigger_Keys[i].modifier = Trigger_Keys[i].modifier | Mod4Mask;
	    Trigger_Keys[i].modifier_mask = Trigger_Keys[i].modifier_mask | Mod4Mask;
	}

	if (Trigger_Keys[i].modifier == 0) {
	    Trigger_Keys[i].modifier = ControlMask;
	    Trigger_Keys[i].modifier_mask = ControlMask;
	}

	p = strKey[i] + strlen (strKey[i]) - 1;
	while (*p != '_') {
	    p--;
	    if (p == strKey[i] || (p == strKey[i] + strlen (strKey[i]) - 1)) {
		Trigger_Keys = (XIMTriggerKey *) malloc (sizeof (XIMTriggerKey) * (iTriggerKeyCount + 2));
		Trigger_Keys[i].keysym = XK_space;
		return;
	    }
	}
	p++;

	if (strlen (p) == 1)
	    Trigger_Keys[i].keysym = tolower (*p);
	else if (!strcasecmp (p, "LCTRL"))
	    Trigger_Keys[i].keysym = XK_Control_L;
	else if (!strcasecmp (p, "RCTRL"))
	    Trigger_Keys[i].keysym = XK_Control_R;
	else if (!strcasecmp (p, "LSHIFT"))
	    Trigger_Keys[i].keysym = XK_Shift_L;
	else if (!strcasecmp (p, "RSHIFT"))
	    Trigger_Keys[i].keysym = XK_Shift_R;
	else if (!strcasecmp (p, "LALT"))
	    Trigger_Keys[i].keysym = XK_Alt_L;
	else if (!strcasecmp (p, "RALT"))
	    Trigger_Keys[i].keysym = XK_Alt_R;
	else if (!strcasecmp (p, "LSUPER"))
	    Trigger_Keys[i].keysym = XK_Super_L;
	else if (!strcasecmp (p, "RSUPER"))
	    Trigger_Keys[i].keysym = XK_Super_R;
	else
	    Trigger_Keys[i].keysym = XK_space;
    }
}
Exemple #4
0
int main(int argc, char *argv[])
{
    std::cout << MyStrcmp(argv[1], argv[2]) << std::endl;
}